Contemporary Developments in Ferrocene Chemistry: Physical, Chemical, Biological and Industrial Aspects

Ferrocenyl-based compounds have many applications in diverse scientific disciplines, including in polymer chemistry as redox dynamic polymers and dendrimers, in materials science as bioreceptors, and in pharmacology, biochemistry, electrochemistry, and nonlinear optics. Considering the horizon of ferrocene chemistry, we attempted to condense the neoteric advancements in the synthesis and applications of ferrocene derivatives reported in the literature from 2016 to date. This paper presents data on the progression of the synthesis of diverse classes of organic compounds having ferrocene scaffolds and recent developments in applications of ferrocene-based organometallic compounds, with a special focus on their biological, medicinal, bio-sensing, chemosensing, asymmetric catalysis, material, and industrial applications.


Introduction
Ferrocene is an organometallic compound consisting of two cyclopentadienyl rings bound to a central iron atom. On account of its unique electronic and structural properties, ferrocene has found a wide range of applications in various fields, such as fuel additives to improve their performance and reduce emissions; electrochemical sensors to detect the presence of various molecules and ions in solutions, including glucose, dopamine, and heavy metals; catalysts in various organic reactions, including oxidation, hydrogenation, and cross-coupling reactions; and medicinal chemistry in the development of anticancer, antiviral, and antimicrobial drugs. Ferrocene derivatives have been used to synthesize a wide range of materials, including polymers, liquid crystals, and nanoparticles, with diverse electronic and magnetic properties. Ferrocene is used as a potential electrode material in redox flow batteries due to its reversible redox behavior and high stability, and as a lubricant to improve the performance and longevity of engines and industrial machinery. The discovery of ferrocene and its structural characterization initiated an explosive rebirth of organometallic chemistry [1]. Nowadays, ferrocene derivatives have received much consideration owing to their outstanding properties like thermal and photochemical inertness and their exceptional and stable electrochemical properties due to an electron donor-acceptor conjugated structure and an efficient redox couple of Fe 2+ /Fe 3+ [2][3][4]. The development of ferrocene unveiled new horizons of chemistry that are deeply rooted in the interpretation of its structure, way of bonding, and chemical inertness, and paved the way for the escalating field of organometallic chemistry itself [5]. Ferrocene and its derivatives are laurel molecules, and the synthesis of this sandwich system-specifically its flavors, utilization in homogeneous catalysis as a novel resource, including its usage in polymer chemistry, and also as a fuel additive-has triggered the hasty advancement of this family

Synthesis of Ferrocenyl Ethers
Ferrocene-containing aliphatic and aromatic ethers are of special interest due to their beauty and electrochemical properties, but their synthesis has always been difficult. To respond to this challenge, Oparina and co-workers introduced a novel nucleophilic addition reaction of ferrocene 1,1-bis(hydroxymethyl) to different alkyne derivatives (Scheme 1). This base-catalyzed addition could be performed on acetylene, propyne, phenylethyne, alkyl propionates, and acylacetylenes to obtain various divinyl ferrocenyl ethers with a remarkable yield value in the range of 73-98% [28].

Scheme 1. Synthesis of ferrocene-based diethenyl ethers.
In a relevant work, multi-ferrocenyl aryl ethers of general type C6H0-3F1-5(OFc)1-5 were synthesized through base-catalyzed nucleophilic aromatic substitution reaction on aryl fluorides. Preparation of mono-, di-, and trisubstituted fluorobenzene was simply carried out through the replacement of one, two, and three fluorine atoms byFcO, respectively (Scheme 2). Further tetra and penta (FcO)-substituted arenes were also prepared by the same procedure and identified by spectroscopic analysis, and XRD confirmed their substitution patterns [29]. It has been reported that different primary alcohols and ferrocene chlorovinyl derivatives can form C-O bonds easily, leading to the production of ferrocenyl vinyl ethers Scheme 1. Synthesis of ferrocene-based diethenyl ethers.

Synthesis of Ferrocenyl Ethers
Ferrocene-containing aliphatic and aromatic ethers are of special interest due to their beauty and electrochemical properties, but their synthesis has always been difficult. To respond to this challenge, Oparina and co-workers introduced a novel nucleophilic addition reaction of ferrocene 1,1-bis(hydroxymethyl) to different alkyne derivatives (Scheme 1). This base-catalyzed addition could be performed on acetylene, propyne, phenylethyne, alkyl propionates, and acylacetylenes to obtain various divinyl ferrocenyl ethers with a remarkable yield value in the range of 73-98% [28].

Scheme 1. Synthesis of ferrocene-based diethenyl ethers.
In a relevant work, multi-ferrocenyl aryl ethers of general type C6H0-3F1-5(OFc)1-5 were synthesized through base-catalyzed nucleophilic aromatic substitution reaction on aryl fluorides. Preparation of mono-, di-, and trisubstituted fluorobenzene was simply carried out through the replacement of one, two, and three fluorine atoms byFcO, respectively (Scheme 2). Further tetra and penta (FcO)-substituted arenes were also prepared by the same procedure and identified by spectroscopic analysis, and XRD confirmed their substitution patterns [29]. It has been reported that different primary alcohols and ferrocene chlorovinyl derivatives can form C-O bonds easily, leading to the production of ferrocenyl vinyl ethers It has been reported that different primary alcohols and ferrocene chlorovinyl derivatives can form C-O bonds easily, leading to the production of ferrocenyl vinyl ethers (Scheme 3). The approach that is being offered has a high yield and provides the products quickly. For a variety of primary alcohols, functionalized ferrocenyl chlorovinyl derivatives (-CHO, -CN, and C(CN) 2 ) were shown to be well tolerated. All the ferrocenated vinyl ethers are novel and have not been previously reported. When the optical metal-detecting capabilities of the 1,2-and 1,3-diol-derived vinyl ether derivatives were examined, selectivity for Cu 2+ ions was found. Among all the other metal ions put to the test, the Organocatalysis was used to create several spirooxindole-ferrocene hybrids with four or five contiguous chiral centers. Additionally, mechanistic studies revealed that compound 23d enhanced oxidative damage, caused apoptosis, and reduced MDM2-mediated p53 degradation (Scheme 11). According to molecular docking research, 23d attaches to MDM2 by imitating the Trp23 and Leu26 residues of p53. This research may serve as a foundation for the creation of innovative, multipurpose MDM2 inhibitors. The research of other derivatives from this library and the application of organocatalysis in the creation of novel molecules may result in the discovery of new potential lead compounds for cancer-targeted therapy [37].
Molecules 2023, 28,5765 8 of 78 compound 23d enhanced oxidative damage, caused apoptosis, and reduced MDM2-mediated p53 degradation (Scheme 11). According to molecular docking research, 23d attaches to MDM2 by imitating the Trp23 and Leu26 residues of p53. This research may serve as a foundation for the creation of innovative, multipurpose MDM2 inhibitors. The research of other derivatives from this library and the application of organocatalysis in the creation of novel molecules may result in the discovery of new potential lead compounds for cancer-targeted therapy [37].
Ferrocene is a typical organometallic compound, which has a sandwich structure with strong hydrophobicity and stability. In this study, the nitro-and cyanophenylferrocene series' physicochemical characteristics were identified, and their biological activity as androgen receptor (AR) antagonists was assessed (Scheme 12). Inferring that the hydrophobicity of ferrocene is ideal for its use as a hydrophobic core structure of nuclear receptor ligands, ferrocene derivatives showed hydrophobicity parameter values in the range of 2.54 to 3.23, depending on the substituents. The synthetic ferrocene derivatives demonstrated AR-antagonistic action, and 3-nitrophenylferrocene 24a was the most effective of these, with an IC50 value of 0.28 M. As AR antagonists, the discovered compounds might be suitable for further structural development. These results confirm the usefulness of organometallic substances as structural options for drug discovery [38].  Ferrocene is a typical organometallic compound, which has a sandwich structure with strong hydrophobicity and stability. In this study, the nitro-and cyanophenylferrocene series' physicochemical characteristics were identified, and their biological activity as androgen receptor (AR) antagonists was assessed (Scheme 12). Inferring that the hydrophobicity of ferrocene is ideal for its use as a hydrophobic core structure of nuclear receptor ligands, ferrocene derivatives showed hydrophobicity parameter values in the range of 2.54 to 3.23, depending on the substituents. The synthetic ferrocene derivatives demonstrated AR-antagonistic action, and 3-nitrophenylferrocene 24a was the most effective of these, with an IC 50 value of 0.28 M. As AR antagonists, the discovered compounds might be suitable for further structural development. These results confirm the usefulness of organometallic substances as structural options for drug discovery [38].
Molecules 2023, 28,5765 8 of 78 compound 23d enhanced oxidative damage, caused apoptosis, and reduced MDM2-mediated p53 degradation (Scheme 11). According to molecular docking research, 23d attaches to MDM2 by imitating the Trp23 and Leu26 residues of p53. This research may serve as a foundation for the creation of innovative, multipurpose MDM2 inhibitors. The research of other derivatives from this library and the application of organocatalysis in the creation of novel molecules may result in the discovery of new potential lead compounds for cancer-targeted therapy [37].
Ferrocene is a typical organometallic compound, which has a sandwich structure with strong hydrophobicity and stability. In this study, the nitro-and cyanophenylferrocene series' physicochemical characteristics were identified, and their biological activity as androgen receptor (AR) antagonists was assessed (Scheme 12). Inferring that the hydrophobicity of ferrocene is ideal for its use as a hydrophobic core structure of nuclear receptor ligands, ferrocene derivatives showed hydrophobicity parameter values in the range of 2.54 to 3.23, depending on the substituents. The synthetic ferrocene derivatives demonstrated AR-antagonistic action, and 3-nitrophenylferrocene 24a was the most effective of these, with an IC50 value of 0.28 M. As AR antagonists, the discovered compounds might be suitable for further structural development. These results confirm the usefulness of organometallic substances as structural options for drug discovery [38].  Effective composite solid propellants have low-pressure exponents and a consistent burning rate (BR). The addition of burning rate catalysts (BRCs) to the propellant system is one of the finest options for achieving the optimal performance of propellants (Scheme 13). BRCs are incredibly significant in composite propellants because of their unique ability to increase the operating effectiveness of solid propellants. Numerous beneficial varieties of BRCs were synthesized for this purpose. Ferrocene-based compounds are a well-known type of BRC due to their superior ignition. However, the practical application of this new family of beneficial compounds as an ideal BRC is constrained by their significant migration and diffusion propensity during storage operations of composite solid propellants [39].
Molecules 2023, 28, 5765 9 of 78 is one of the finest options for achieving the optimal performance of propellants (Scheme 13). BRCs are incredibly significant in composite propellants because of their unique ability to increase the operating effectiveness of solid propellants. Numerous beneficial varieties of BRCs were synthesized for this purpose. Ferrocene-based compounds are a wellknown type of BRC due to their superior ignition. However, the practical application of this new family of beneficial compounds as an ideal BRC is constrained by their significant migration and diffusion propensity during storage operations of composite solid propellants [39].
Scheme 13. Synthesis of poly (vinyl-Fc) by FRP of vinyl-Fc.

Synthesis of Alkyl and N-Heteroatom-Substituted Ferrocene Derivatives
Satter and Kumar reported a new pathway for C-C bond formation between ferrocene and other alkyl or aryl substituents catalyzed by hybrid transition metal catalysts [40]. The reported work indicated an innovative sp 2 -sp 3 coupling reaction for the first time where the C-H bond was coupled for new C-C bond formation, chiefly directed by ligands (Scheme 14). The reaction could be a useful approach for the synthesis of ferrocene-functionalized biologically active drugs. The synthesis of thiol, silyl, and halogen derivatives of alkyl-ferrocene was made simple and affordable. In this procedure, ferrocene is functionalized with terminal carboxylic acid using cyclic anhydrides as a precursor to be purified using an acid-base workup. With good to exceptional yields, the synthetic technique uses moderate reaction conditions (Scheme 15). To create polymeric binders with a faster burn rate for usage in composite solid propellant for aerospace applications, the ferrocene-alkyl silane and ferrocene-alkyl-thiol are covalently grafted to the pendent vinylic groups of HTPB [41].

Synthesis of Alkyl and N-Heteroatom-Substituted Ferrocene Derivatives
Satter and Kumar reported a new pathway for C-C bond formation between ferrocene and other alkyl or aryl substituents catalyzed by hybrid transition metal catalysts [40]. The reported work indicated an innovative sp 2 -sp 3 coupling reaction for the first time where the C-H bond was coupled for new C-C bond formation, chiefly directed by ligands (Scheme 14). The reaction could be a useful approach for the synthesis of ferrocenefunctionalized biologically active drugs.
Molecules 2023, 28, 5765 9 of 78 is one of the finest options for achieving the optimal performance of propellants (Scheme 13). BRCs are incredibly significant in composite propellants because of their unique ability to increase the operating effectiveness of solid propellants. Numerous beneficial varieties of BRCs were synthesized for this purpose. Ferrocene-based compounds are a wellknown type of BRC due to their superior ignition. However, the practical application of this new family of beneficial compounds as an ideal BRC is constrained by their significant migration and diffusion propensity during storage operations of composite solid propellants [39].
Scheme 13. Synthesis of poly (vinyl-Fc) by FRP of vinyl-Fc.

Synthesis of Alkyl and N-Heteroatom-Substituted Ferrocene Derivatives
Satter and Kumar reported a new pathway for C-C bond formation between ferrocene and other alkyl or aryl substituents catalyzed by hybrid transition metal catalysts [40]. The reported work indicated an innovative sp 2 -sp 3 coupling reaction for the first time where the C-H bond was coupled for new C-C bond formation, chiefly directed by ligands (Scheme 14). The reaction could be a useful approach for the synthesis of ferrocene-functionalized biologically active drugs. The synthesis of thiol, silyl, and halogen derivatives of alkyl-ferrocene was made simple and affordable. In this procedure, ferrocene is functionalized with terminal carboxylic acid using cyclic anhydrides as a precursor to be purified using an acid-base workup. With good to exceptional yields, the synthetic technique uses moderate reaction conditions (Scheme 15). To create polymeric binders with a faster burn rate for usage in composite solid propellant for aerospace applications, the ferrocene-alkyl silane and ferrocene-alkyl-thiol are covalently grafted to the pendent vinylic groups of HTPB [41]. The synthesis of thiol, silyl, and halogen derivatives of alkyl-ferrocene was made simple and affordable. In this procedure, ferrocene is functionalized with terminal carboxylic acid using cyclic anhydrides as a precursor to be purified using an acid-base workup. With good to exceptional yields, the synthetic technique uses moderate reaction conditions (Scheme 15). To create polymeric binders with a faster burn rate for usage in composite solid propellant for aerospace applications, the ferrocene-alkyl silane and ferrocene-alkyl-thiol are covalently grafted to the pendent vinylic groups of HTPB [41].
By utilizing the redox reactions of water-soluble organic molecules, an aqueous organic flow battery (AOFB) holds immense potential as an energy storage solution for fluctuating renewable electricity (Scheme 16). The absence of suitable organic molecules for catholytes is impeding current progress; however, it is yet unknown how catholyte structure affects battery longevity. In water, six ferrocene derivatives with specifically tuned chemical structures go through reversible redox processes, and the redox potentials of these energized forms are inversely related to their LUMO energies. In symmetric and complete flow cells, the stability of the ferrocene derivatives was assessed. Calculations using density function theory (DFT) and actual findings show that the localized LUMO density on Fe causes a rapid capacity fading, with BQHFc having the lowest LUMO density [42]. By utilizing the redox reactions of water-soluble organic molecules, an aqueous organic flow battery (AOFB) holds immense potential as an energy storage solution for fluctuating renewable electricity (Scheme 16). The absence of suitable organic molecules for catholytes is impeding current progress; however, it is yet unknown how catholyte structure affects battery longevity. In water, six ferrocene derivatives with specifically tuned chemical structures go through reversible redox processes, and the redox potentials of these energized forms are inversely related to their LUMO energies. In symmetric and complete flow cells, the stability of the ferrocene derivatives was assessed. Calculations using density function theory (DFT) and actual findings show that the localized LUMO density on Fe causes a rapid capacity fading, with BQHFc having the lowest LUMO density [42].

Synthesis of Ferrocenyl Derivative Directly Bonded with Heteroatom
Recent research reported the synthesis of cyclopentyl cobalt (III)-assisted carbonheteroatom coupling reaction on a gram scale, using pyridylferrocene and dioxazolones under soft conditions with an impressive yield of 96% (Scheme 17). These ferrocene-based compounds could be used as effective catalysts due to the presence of N, N-bidentate ligands. Further, the replacement of the directing group could increase the efficiency of the reaction column, and the absolute configuration of selected enantiomers was determined by X-ray crystallographic analysis [43].  By utilizing the redox reactions of water-soluble organic molecules, an aqueous organic flow battery (AOFB) holds immense potential as an energy storage solution for fluctuating renewable electricity (Scheme 16). The absence of suitable organic molecules for catholytes is impeding current progress; however, it is yet unknown how catholyte structure affects battery longevity. In water, six ferrocene derivatives with specifically tuned chemical structures go through reversible redox processes, and the redox potentials of these energized forms are inversely related to their LUMO energies. In symmetric and complete flow cells, the stability of the ferrocene derivatives was assessed. Calculations using density function theory (DFT) and actual findings show that the localized LUMO density on Fe causes a rapid capacity fading, with BQHFc having the lowest LUMO density [42].

Synthesis of Ferrocenyl Derivative Directly Bonded with Heteroatom
Recent research reported the synthesis of cyclopentyl cobalt (III)-assisted carbonheteroatom coupling reaction on a gram scale, using pyridylferrocene and dioxazolones under soft conditions with an impressive yield of 96% (Scheme 17). These ferrocene-based compounds could be used as effective catalysts due to the presence of N, N-bidentate ligands. Further, the replacement of the directing group could increase the efficiency of the reaction column, and the absolute configuration of selected enantiomers was determined by X-ray crystallographic analysis [43].

Synthesis of Ferrocenyl Derivative Directly Bonded with Heteroatom
Recent research reported the synthesis of cyclopentyl cobalt (III)-assisted carbonheteroatom coupling reaction on a gram scale, using pyridylferrocene and dioxazolones under soft conditions with an impressive yield of 96% (Scheme 17). These ferrocene-based compounds could be used as effective catalysts due to the presence of N, N-bidentate ligands. Further, the replacement of the directing group could increase the efficiency of the reaction column, and the absolute configuration of selected enantiomers was determined by X-ray crystallographic analysis [43]. The ortho-directed lithiation of chiral ferrocene sulfonamides, followed by a reaction with electrophilic reactants, was used to synthesize a number of 1,2-disubstituted planar chiral ferrocenes (Scheme 18). The various diastereoisomers could be separated in pure form, and the planar 1,2-functionalized ferrocene sulfonamides were produced in good yields. The planar chirality-relevant relative configurations of the chemical groups in po-Scheme 17. Cyclopentyl cobalt (III)-assisted synthesis of N-substituted ferrocene derivatives. The ortho-directed lithiation of chiral ferrocene sulfonamides, followed by a reaction with electrophilic reactants, was used to synthesize a number of 1,2-disubstituted planar chiral ferrocenes (Scheme 18). The various diastereoisomers could be separated in pure form, and the planar 1,2-functionalized ferrocene sulfonamides were produced in good yields. The planar chirality-relevant relative configurations of the chemical groups in positions 1 and 2 were recovered from NMR measurements, and the absolute configuration was established by X-ray crystallography. Modern quantum chemical algorithms were used to record, assign, and interpret experimental ECD and VCD spectra, allowing for an impartial examination of the several structural elements that influence the overall spectroscopic properties [44].

Scheme 17. Cyclopentyl cobalt (III)-assisted synthesis of N-substituted ferrocene derivatives
The ortho-directed lithiation of chiral ferrocene sulfonamides, followed by a reaction with electrophilic reactants, was used to synthesize a number of 1,2-disubstituted planar chiral ferrocenes (Scheme 18). The various diastereoisomers could be separated in pure form, and the planar 1,2-functionalized ferrocene sulfonamides were produced in good yields. The planar chirality-relevant relative configurations of the chemical groups in positions 1 and 2 were recovered from NMR measurements, and the absolute configuration was established by X-ray crystallography. Modern quantum chemical algorithms were used to record, assign, and interpret experimental ECD and VCD spectra, allowing for an impartial examination of the several structural elements that influence the overall spectroscopic properties [44]. The synthesis and application of redox-active organic species in aqueous redox flow batteries offer numerous opportunities for extensive and sustainable energy storage, which is necessary for sustainable development. Here, a stable and simple-to-synthesize sulfonated ferrocene derivative known as ferrocene ammonium sulfonate is disclosed. In zinc hybrid flow batteries, it served as a catholyte. With the electrolyte adjusted, the battery demonstrated good efficiency and capacity retention. After 100 continuous charge/discharge cycles with a current density of 20 mA/cm 2 and a supporting electrolyte of 0.5 M NaCl + 0.5 M NH4Cl, the capacity retention achieved 92.55% (Scheme 19). This battery design proposes a concept for developing low-cost materials and improving capacity retention [45]. The synthesis and application of redox-active organic species in aqueous redox flow batteries offer numerous opportunities for extensive and sustainable energy storage, which is necessary for sustainable development. Here, a stable and simple-to-synthesize sulfonated ferrocene derivative known as ferrocene ammonium sulfonate is disclosed. In zinc hybrid flow batteries, it served as a catholyte. With the electrolyte adjusted, the battery demonstrated good efficiency and capacity retention. After 100 continuous charge/discharge cycles with a current density of 20 mA/cm 2 and a supporting electrolyte of 0.5 M NaCl + 0.5 M NH 4 Cl, the capacity retention achieved 92.55% (Scheme 19). This battery design proposes a concept for developing low-cost materials and improving capacity retention [45].

Synthesis of Ferrocene-Conjugated Metal Complexes
Three ferrocenyl-functionalized metal complexes (27)(28)(29) were synthesized using a newly reported synthetic procedure in which the ferrocene nucleus was converted to carbamate precursors that further developed into thiazolidine-containing metal complexes (Scheme 20). The geometry of these organometallic complexes was confirmed by spectroscopic studies and the XRD approach. All three complexes found their applications in the biological system, especially in a bacterial metabolic pathway study [46].

Synthesis of Ferrocene-Conjugated Metal Complexes
Three ferrocenyl-functionalized metal complexes (27)(28)(29) were synthesized using a newly reported synthetic procedure in which the ferrocene nucleus was converted to carbamate precursors that further developed into thiazolidine-containing metal complexes (Scheme 20). The geometry of these organometallic complexes was confirmed by spectroscopic studies and the XRD approach. All three complexes found their applications in the biological system, especially in a bacterial metabolic pathway study [46]. Gao and colleagues reported a rapid and efficient method for the synthesis of an advanced ferrocene-functionalized cyclopalladated complex by the reaction of acetyl ferrocene and chiral amines that produced orange-colored chiral ferrocenyl hydrazones that further reacted with Pd(OAc) 2 and generated red-colored cyclopalladated product 30 (Scheme 21). Biological screening revealed that the potency of the cyclic organometallic complex was 93-fold greater than the usual anticancer drug cisplatin [47]. Scheme 19. Synthetic route of Fc-SO3NH4.

Synthesis of Ferrocene-Conjugated Metal Complexes
Three ferrocenyl-functionalized metal complexes (27)(28)(29) were synthesized using a newly reported synthetic procedure in which the ferrocene nucleus was converted to carbamate precursors that further developed into thiazolidine-containing metal complexes (Scheme 20). The geometry of these organometallic complexes was confirmed by spectroscopic studies and the XRD approach. All three complexes found their applications in the biological system, especially in a bacterial metabolic pathway study [46]. Gao and colleagues reported a rapid and efficient method for the synthesis of an advanced ferrocene-functionalized cyclopalladated complex by the reaction of acetyl ferrocene and chiral amines that produced orange-colored chiral ferrocenyl hydrazones that further reacted with Pd(OAc)2 and generated red-colored cyclopalladated product 30 Scheme 20. Synthesis of ferrocene-grafted metal complexes.
As the primary components of proteins, amino acids are essential to all major biological processes. Schiff bases are biologically active molecules with a variety of pharmacological functions. Their La (III), Er (III), and Yb (III) metal complexes were accomplished Scheme 21. Synthesis of ferrocene-based cyclopalladated complex.
As the primary components of proteins, amino acids are essential to all major biological processes. Schiff bases are biologically active molecules with a variety of pharmacological functions. Their La (III), Er (III), and Yb (III) metal complexes were accomplished as shown in Scheme 22. Different spectroscopic techniques, such as elemental analysis, FT-IR, mass, UV-Vis spectra, thermal analysis (TG), and scanning electron microscopy (SEM), were used to describe these metal complexes. The complexes were discovered to have octahedral geometry using the elemental analysis data, with the formula [M(L)(H 2 O) 2 Cl]Cl.nH 2 O (M = La(III), n = 2; Er (III), n = 4; and Yb (III), n = 1). According to what has been determined, carboxylic oxygen, imidazole nitrogen, and azomethine nitrogen play a role in the ligand's mono-negative tridentate form of binding to the metal ions [48]. As the primary components of proteins, amino acids are essential to all major biological processes. Schiff bases are biologically active molecules with a variety of pharmacological functions. Their La (III), Er (III), and Yb (III) metal complexes were accomplished as shown in Scheme 22. Different spectroscopic techniques, such as elemental analysis, FT-IR, mass, UV-Vis spectra, thermal analysis (TG), and scanning electron microscopy (SEM), were used to describe these metal complexes. The complexes were discovered to have octahedral geometry using the elemental analysis data, with the formula [M(L)(H2O)2Cl]Cl.nH2O (M = La(III), n = 2; Er (III), n = 4; and Yb (III), n = 1). According to what has been determined, carboxylic oxygen, imidazole nitrogen, and azomethine nitrogen play a role in the ligand's mono-negative tridentate form of binding to the metal ions [48]. A two-step process was used to produce an organic bimetallic complex with a cross configuration. The combination of ferrocene carboxaldehyde and DL-alaninol produced the ferrocene-palladium (II) complex, which in turn formed the ferrocene-Schiff base (Scheme 23). The crystal structure revealed that two motifs exist as a racemate and have a trans structure opposite to cisplatin. Compound 31 was found to be less hazardous to normal cells and to effectively decrease the viability of many tumor cell lines, with efficacy up to 20-fold better than cisplatin. The induction of caspase-3-dependent apoptosis in vitro served as the mechanism of antiproliferation actions. Molecular docking was used to predict that the biological target of the synthesized compound was XIAP, which showed it was bound to the BIR3 protein [49]. A two-step process was used to produce an organic bimetallic complex with a cross configuration. The combination of ferrocene carboxaldehyde and DL-alaninol produced the ferrocene-palladium (II) complex, which in turn formed the ferrocene-Schiff base (Scheme 23). The crystal structure revealed that two motifs exist as a racemate and have a trans structure opposite to cisplatin. Compound 31 was found to be less hazardous to normal cells and to effectively decrease the viability of many tumor cell lines, with efficacy up to 20-fold better than cisplatin. The induction of caspase-3-dependent apoptosis in vitro served as the mechanism of antiproliferation actions. Molecular docking was used to predict that the biological target of the synthesized compound was XIAP, which showed it was bound to the BIR3 protein [49]. Scheme 23. Synthesis of bimetallic complex with cross configuration.

Synthesis of Ferrocene-Based Cyclic Urea
In a recent study, a highly efficient, cost-effective, and environmentally benign protocol named "Biginelli Reaction" was utilized for the preparation of various para-substituted phenyl-6-ferrocenyl 3,4-dihydropyrimidine derivatives (32a-d) [50]. In a one-pot re-Scheme 23. Synthesis of bimetallic complex with cross configuration.

Synthesis of Ferrocene-Based Cyclic Urea
In a recent study, a highly efficient, cost-effective, and environmentally benign protocol named "Biginelli Reaction" was utilized for the preparation of various para-substituted phenyl-6-ferrocenyl 3,4-dihydropyrimidine derivatives (32 a-d ) [50]. In a one-pot reaction, various substituted benzaldehyde units, acylated ferrocene, and urea components were mixed, and different products with different ranges of yield were isolated and characterized by spectroscopic analysis (Scheme 24). Biological assays proved these compounds as promising candidates for drug testing. Scheme 23. Synthesis of bimetallic complex with cross configuration.

Synthesis of Ferrocene-Based Cyclic Urea
In a recent study, a highly efficient, cost-effective, and environmentally benign protocol named "Biginelli Reaction" was utilized for the preparation of various para-substituted phenyl-6-ferrocenyl 3,4-dihydropyrimidine derivatives (32a-d) [50]. In a one-pot reaction, various substituted benzaldehyde units, acylated ferrocene, and urea components were mixed, and different products with different ranges of yield were isolated and characterized by spectroscopic analysis (Scheme 24). Biological assays proved these compounds as promising candidates for drug testing. A process for synthesizing tetrahydropyrimidin-2(1H)-ones that contain ferrocene by starting with the appropriate 3-arylamino-1-ferrocenylpropan-1-ols and sodium cyanate (NaOCN) in the presence of glacial acetic acid was exercised. An intramolecular cyclization of 1,3-hydroxyurea produced in situ afforded eleven 1,3-amino alcohols containing ferrocene moiety, and the desired 1-aryl-4-ferrocenyltetrahydropyrimidin-2(1H)-ones (33a-e) were produced in good to high yields (up to 93%) (Scheme 25). Every product has been purified to a high level (>95%). A thorough structural characterization of the novel compounds, carried out using IR and NMR spectroscopy, is also described [51]. A process for synthesizing tetrahydropyrimidin-2(1H)-ones that contain ferrocene by starting with the appropriate 3-arylamino-1-ferrocenylpropan-1-ols and sodium cyanate (NaOCN) in the presence of glacial acetic acid was exercised. An intramolecular cyclization of 1,3-hydroxyurea produced in situ afforded eleven 1,3-amino alcohols containing ferrocene moiety, and the desired 1-aryl-4-ferrocenyltetrahydropyrimidin-2(1H)-ones (33a-e) were produced in good to high yields (up to 93%) (Scheme 25). Every product has been purified to a high level (>95%). A thorough structural characterization of the novel compounds, carried out using IR and NMR spectroscopy, is also described [51].
Atropoisomerism is a term used to describe a stereochemical phenomenon caused by impeded rotation around bonds in nonplanar molecules. An easy-to-perform synthesis and thorough characterization of novel atropoisomeric ferrocene-containing six-membered cyclic ureas (34a-g) is reported. This work was motivated by the intriguing biolog-Scheme 25. A synthetic strategy to 1-aryl-4-ferrocenyltetrahydropyrimidin-2(1H)-ones.
Atropoisomerism is a term used to describe a stereochemical phenomenon caused by impeded rotation around bonds in nonplanar molecules. An easy-to-perform synthesis and thorough characterization of novel atropoisomeric ferrocene-containing six-membered cyclic ureas (34a-g) is reported. This work was motivated by the intriguing biological/medical characteristics of six-membered cyclic ureas and "atropoisomers-things that rotate." Two atropoisomers of the same compound's crystal structure are also described. These two architectures' molecular structural characteristics and intermolecular interactions have been compared and thoroughly examined. It is interesting to note that while having conformation and geometrical properties that are relatively comparable, these two isomers create significantly distinct crystal packing (Scheme 26) [52].
Atropoisomerism is a term used to describe a stereochemical phenomenon caused by impeded rotation around bonds in nonplanar molecules. An easy-to-perform synthesis and thorough characterization of novel atropoisomeric ferrocene-containing six-membered cyclic ureas (34a-g) is reported. This work was motivated by the intriguing biological/medical characteristics of six-membered cyclic ureas and "atropoisomers-things that rotate." Two atropoisomers of the same compound's crystal structure are also described. These two architectures' molecular structural characteristics and intermolecular interactions have been compared and thoroughly examined. It is interesting to note that while having conformation and geometrical properties that are relatively comparable, these two isomers create significantly distinct crystal packing (Scheme 26) [52].

Synthesis of Ferrocene-Based Heterocyclic Derivatives
The group of Li and Chi have developed an elegant method for the construction of two ferrocene-branched poly-triazoles (37a-b) by treating ferrocene-based diazides (35) and tris (4-ethynylphenyl) amine (36) in the presence of a copper catalyst (Scheme 27). Owing to the ferrocene scaffold present inside poly-triazole-based polymers, two nanocomposites were prepared using carbonization or destructive distillation. Both polymeric materials also exhibited the saturation magnetization potential that proved the remarkable standard of these polymers for ultra-advanced technological applications [53].

Synthesis of Ferrocene-Based Heterocyclic Derivatives
The group of Li and Chi have developed an elegant method for the construction of two ferrocene-branched poly-triazoles (37a-b) by treating ferrocene-based diazides (35) and tris (4-ethynylphenyl) amine (36) in the presence of a copper catalyst (Scheme 27). Owing to the ferrocene scaffold present inside poly-triazole-based polymers, two nanocomposites were prepared using carbonization or destructive distillation. Both polymeric materials also exhibited the saturation magnetization potential that proved the remarkable standard of these polymers for ultra-advanced technological applications [53]. Maracic et al. conducted the synthesis of a series of novel bis-triazole containing 1,1 -disubstituted ferrocene conjugates (37c-h) attached with N-1 and O-4 alkylated quinolone and quinoline by the liquid-assisted grinding (LAG) mechanochemical method in copper-catalyzed azide-alkyne cycloaddition (CuAAC) in higher yields and with a shorter reaction time compared to a conventional method, thus proving the superiority of mechanochemistry versus conventional synthesis (Scheme 28). The antiproliferative effects of bis-quinoline and bis-quinolone ferrocene derivatives on five tumor cell lines and two non-tumor cell lines were investigated [54]. In addition, the synthesis of ferrocene-functionalized triphyrin analogs has been attempted using the Pd-promoted coupling reaction between substituted triphyrin and ethynyl ferrocene subunits under lenient conditions [55]. Further mechanistic study revealed that there was a strong affinity between triphyrins and ferrocenyl units in the diad (38) when compared with the triad (39). Both conjugates were thought to be promising candidates for evolutionary development in molecular device applications (Scheme 29). In addition, the synthesis of ferrocene-functionalized triphyrin analogs has been attempted using the Pd-promoted coupling reaction between substituted triphyrin and ethynyl ferrocene subunits under lenient conditions [55]. Further mechanistic study revealed that there was a strong affinity between triphyrins and ferrocenyl units in the diad (38) when compared with the triad (39). Both conjugates were thought to be promising candidates for evolutionary development in molecular device applications (Scheme 29).
Another interesting example regarding ferrocenyl heterocycles was the synthesis of ferrocene-grafted nitroimidazoles 42 in which a regiospecific reaction occurred between αhydroxy ferrocene 40 and nitroimidazole precursor 41 in the presence of HBF 4 (Scheme 30). The resulting racemic mixture was resolved by HPLC containing amylose or cellulose-based chiral stationary phase. Cytotoxicity assay of these derivatives revealed the anticancer activity of only compound 42b against murine solid tumor system Ca755 cancer cells [56]. Another interesting example regarding ferrocenyl heterocycles was the synthesis of ferrocene-grafted nitroimidazoles 42 in which a regiospecific reaction occurred between α-hydroxy ferrocene 40 and nitroimidazole precursor 41 in the presence of HBF4 (Scheme 30). The resulting racemic mixture was resolved by HPLC containing amylose or cellulose-Scheme 29. Synthesis of ferrocenyl-substituted triphyrin derivatives. based chiral stationary phase. Cytotoxicity assay of these derivatives revealed the anticancer activity of only compound 42b against murine solid tumor system Ca755 cancer cells [56].
Zhang and co-workers introduced an innovative 1,3 dipolar cycloaddition protocol to synthesize a ferrocene-based substituted pyrrolidine system. In this novel approach, azomethine yields were generated through the in situ reaction of α-amino acid ester and ferrocene-functionalized carbaldehyde that further reacted with N-substituted maleimide to give a pyrrolidine product (Scheme 31). Moreover, the structures of these compounds were elucidated by 1 H NMR and high-resolution mass spectral data [57]. Zhang and co-workers introduced an innovative 1,3 dipolar cycloaddition protocol to synthesize a ferrocene-based substituted pyrrolidine system. In this novel approach, azomethine yields were generated through the in situ reaction of α-amino acid ester and ferrocene-functionalized carbaldehyde that further reacted with N-substituted maleimide to give a pyrrolidine product (Scheme 31). Moreover, the structures of these compounds were elucidated by 1 H NMR and high-resolution mass spectral data [57].
based chiral stationary phase. Cytotoxicity assay of these derivatives revealed the anticancer activity of only compound 42b against murine solid tumor system Ca755 cancer cells [56]. Zhang and co-workers introduced an innovative 1,3 dipolar cycloaddition protocol to synthesize a ferrocene-based substituted pyrrolidine system. In this novel approach, azomethine yields were generated through the in situ reaction of α-amino acid ester and ferrocene-functionalized carbaldehyde that further reacted with N-substituted maleimide to give a pyrrolidine product (Scheme 31). Moreover, the structures of these compounds were elucidated by 1 H NMR and high-resolution mass spectral data [57]. The synthesis of ferrocenyl imidazole derivatives occurs through the Debus-Radziszewski condensation reaction in which 1,6-bis-ferrocene-hexa-1,5-diene-3,5-dione is condensed with p-substituted benzaldehyde, demonstrated by Selvam and co-workers (Scheme 32). These imidazole derivatives displayed second-order NLO properties confirmed by SHG analysis [58].
Different reaction conditions afforded the formation of two different products with different yields, characterized by X-ray crystallography and spectroscopic analysis (Scheme 35). Different reaction conditions afforded the formation of two different products with different yields, characterized by X-ray crystallography and spectroscopic analysis (Scheme 35).  Different reaction conditions afforded the formation of two different products wi different yields, characterized by X-ray crystallography and spectroscopic analys (Scheme 35).

Synthesis of Ferrocene-Fused Cyclic Derivatives
Shibata and co-workers explored platinum chloride as a useful catalyst for enantioselective synthesis of a ferrocene-fused aromatic system through cycloisomerization of 2-ethynyl-1 ferrocenyl benzene precursor (Scheme 36). The mechanistic study revealed that C-H activation did not occur in the rate-determining step and the reaction proceeded through the activation of the alkyne nucleus via protonation of π cloud of chiral Pt complex followed by a 6-endo-dig cyclization reaction [61].

Synthesis of Ferrocene-Fused Cyclic Derivatives
Shibata and co-workers explored platinum chloride as a useful catalyst for enantioselective synthesis of a ferrocene-fused aromatic system through cycloisomerization of 2ethynyl-1 ferrocenyl benzene precursor (Scheme 36). The mechanistic study revealed that C-H activation did not occur in the rate-determining step and the reaction proceeded through the activation of the alkyne nucleus via protonation of π cloud of chiral Pt complex followed by a 6-endo-dig cyclization reaction [61]. Recently, a new protocol has been safely scaled up based on Pd-catalyzed intramolecular tandem cyclization of ferrocene analogs with substituted alkyne, to form novel asymmetric planer ferrocene [1,2-d] pyrrolidines [62]. This Pd (0)-catalyzed tandem intermolecular syn-carbopalladation of N-ferrocenyl propionamide with aryl iodides had been appreciated, fabricating planar asymmetric ferrocene [1,2-d] pyrrolinones in virtuous yields. Moreover, using BINOL-based phosphoramidite ligands, up to 95% ee was attained (Scheme 37). Recently, a new protocol has been safely scaled up based on Pd-catalyzed intramolecular tandem cyclization of ferrocene analogs with substituted alkyne, to form novel asymmetric planer ferrocene [1,2-d] pyrrolidines [62]. This Pd (0)-catalyzed tandem intermolecular syn-carbopalladation of N-ferrocenyl propionamide with aryl iodides had been appreciated, fabricating planar asymmetric ferrocene [1,2-d] pyrrolinones in virtuous yields. Moreover, using BINOL-based phosphoramidite ligands, up to 95% ee was attained (Scheme 37).
The Ritter reaction was used for the preparation of 3,4-dihydroferrocenyl[c]pyridine racemates by Rozhkova et al. [63]. In this newly planned strategy, 2-methyl-1-ferrocenyl propane-1-ol was treated with substituted nitriles in the existence of a methyl sulfonic acid catalyst (Scheme 38). The targeted racemates were successfully resolved by preparatory HPLC on a chiral cell OD-H column and the absolute configuration of each enantiomer was determined by X-ray crystallographic studies.
The Ritter reaction was used for the preparation of 3,4-dihydroferrocenyl[c]pyridine racemates by Rozhkova et al. [63]. In this newly planned strategy, 2-methyl-1-ferrocenyl propane-1-ol was treated with substituted nitriles in the existence of a methyl sulfonic acid catalyst (Scheme 38). The targeted racemates were successfully resolved by preparatory HPLC on a chiral cell OD-H column and the absolute configuration of each enantiomer was determined by X-ray crystallographic studies. Scheme 38. Synthesis of dihydro ferrocenyl pyridine derivatives.

Applications of Ferrocene Derivatives
The application of metallocene-functionalized compounds has become a research topic of growing interest in recent years. Ferrocenes have been used as chemical intermediates, antiknock additives to gasoline, lubricants, and for other uses, but a primary application is related to catalysis [64]. Ferrocene is also currently being investigated as an active pharmacological agent against many notorious diseases like cancer, malaria, and other bacterial infections. Here, we tried to review applications of ferrocene derivatives embracing several fields like materials science, industry, agriculture, biology, medicine, electrochemistry, etc. The Ritter reaction was used for the preparation of 3,4-dihydroferrocenyl[c]pyridine racemates by Rozhkova et al. [63]. In this newly planned strategy, 2-methyl-1-ferrocenyl propane-1-ol was treated with substituted nitriles in the existence of a methyl sulfonic acid catalyst (Scheme 38). The targeted racemates were successfully resolved by preparatory HPLC on a chiral cell OD-H column and the absolute configuration of each enantiomer was determined by X-ray crystallographic studies. Scheme 38. Synthesis of dihydro ferrocenyl pyridine derivatives.

Applications of Ferrocene Derivatives
The application of metallocene-functionalized compounds has become a research topic of growing interest in recent years. Ferrocenes have been used as chemical intermediates, antiknock additives to gasoline, lubricants, and for other uses, but a primary application is related to catalysis [64]. Ferrocene is also currently being investigated as an active pharmacological agent against many notorious diseases like cancer, malaria, and other bacterial infections. Here, we tried to review applications of ferrocene derivatives embracing several fields like materials science, industry, agriculture, biology, medicine, electrochemistry, etc. Scheme 38. Synthesis of dihydro ferrocenyl pyridine derivatives.

Applications of Ferrocene Derivatives
The application of metallocene-functionalized compounds has become a research topic of growing interest in recent years. Ferrocenes have been used as chemical intermediates, antiknock additives to gasoline, lubricants, and for other uses, but a primary application is related to catalysis [64]. Ferrocene is also currently being investigated as an active pharmacological agent against many notorious diseases like cancer, malaria, and other bacterial infections. Here, we tried to review applications of ferrocene derivatives embracing several fields like materials science, industry, agriculture, biology, medicine, electrochemistry, etc.

Materials Science Applications
Ferrocene retains an iron synthetic chemistry which includes a 3D structure that permits the synthesis of many derivatives, outstanding thermal stabilities [65,66], and rapid dissolution in common organic solvents [67]. Thanks to these imperative features, ferrocene derivatives have been used in a wide number of materials science applications; so diverse are they that it is problematic to classify these into a coherent manuscript. Thus, this is a general outline of some specific applications of ferrocene-functionalized compounds, including NLO devices, functional materials in electrochemical sensors, electron beam lithography, and electrochromic applications.

Biosensing Potential of Saccharides
By considering the binding affinities, biocompatibility, and host-guest molecule recognition capacity of amides, Saleem et al. synthesized ferrocene-appended phenylboronic amino acid and diaminophenyl boronic acid (APBA) derivatives and evaluated their saccharide sensing activity using spectroscopic analysis (Scheme 39). The neighboring environment of the boronic acid binding site and the linking ferrocene unit enhanced the binding abilities of tetrahedral boron. Further, ferrocene's electrochemical response signified a substantial step towards effective and robust artificial bioelectronic affinity receptors [68].
Ferrocene retains an iron synthetic chemistry which includes a 3D structure that permits the synthesis of many derivatives, outstanding thermal stabilities [65,66], and rapid dissolution in common organic solvents [67]. Thanks to these imperative features, ferrocene derivatives have been used in a wide number of materials science applications; so diverse are they that it is problematic to classify these into a coherent manuscript. Thus, this is a general outline of some specific applications of ferrocene-functionalized compounds, including NLO devices, functional materials in electrochemical sensors, electron beam lithography, and electrochromic applications.

Biosensing Potential of Saccharides
By considering the binding affinities, biocompatibility, and host-guest molecule recognition capacity of amides, Saleem et al. synthesized ferrocene-appended phenylboronic amino acid and diaminophenyl boronic acid (APBA) derivatives and evaluated their saccharide sensing activity using spectroscopic analysis (Scheme 39). The neighboring environment of the boronic acid binding site and the linking ferrocene unit enhanced the binding abilities of tetrahedral boron. Further, ferrocene's electrochemical response signified a substantial step towards effective and robust artificial bioelectronic affinity receptors [68]. In a different work, Rabti and co-authors designed an innovative ferrocene-grafted (rGO) electrode, prepared by drop-casting ferrocene-based graphene against a polyester surface ( Figure 1a). The freshly synthesized ω-azidodiethylene-glycol-α-ferrocenyl esters (agFc) and rGO nanosheets generated extremely aqueous soluble agFc-rGO nanosheets through cycloaddition ( Figure 1b). Further, biological interactions with glucose oxidase for glucose recognition were accomplished using bioelectrode, offering evidence for latent biosensing use [69]. In a different work, Rabti and co-authors designed an innovative ferrocene-grafted (rGO) electrode, prepared by drop-casting ferrocene-based graphene against a polyester surface ( Figure 1a). The freshly synthesized ω-azidodiethylene-glycol-α-ferrocenyl esters (agFc) and rGO nanosheets generated extremely aqueous soluble agFc-rGO nanosheets through cycloaddition ( Figure 1b). Further, biological interactions with glucose oxidase for glucose recognition were accomplished using bioelectrode, offering evidence for latent biosensing use [69].

Anion Biosensors
Various analytical methods were reported in the literature for the detection of superoxide anion, but all fail to provide in vivo and in vitro monitoring. These issues were resolved by fabricating highly selective hydrogel structures in which ferrocene units were associated with superoxide dismutase into a poly diacrylate hydrogen matrix for the synthesis of SOD-Fc-PEG-based electrodes [68]. The polymeric solution was emulated by optical lithography in Au microelectrodes assembled onto the surface of glass slides ( Figure  2). Such reproducible biosensing materials were used for the diagnosis of carcinoma anion cells that release superoxide anions, with LOD of 0.001 µm and sensitivity of 1.41 Na 4 M/mm 2 .

Anion Biosensors
Various analytical methods were reported in the literature for the detection of superoxide anion, but all fail to provide in vivo and in vitro monitoring. These issues were resolved by fabricating highly selective hydrogel structures in which ferrocene units were associated with superoxide dismutase into a poly diacrylate hydrogen matrix for the synthesis of SOD-Fc-PEG-based electrodes [68]. The polymeric solution was emulated by optical lithography in Au microelectrodes assembled onto the surface of glass slides ( Figure 2). Such reproducible biosensing materials were used for the diagnosis of carcinoma anion cells that release superoxide anions, with LOD of 0.001 µm and sensitivity of 1.41 Na 4 M/mm 2 .

Hydrogen Peroxide Biosensor
In a providential work, Dong's group developed an electrochemical biosensor based on chitosan-immobilized enzymes and a β-cyclodextrin-containing ferrocene complex for the biological detection of H2O2 [70]. A CTS-CAT/β-CD-FE-grafted electrode was constructed by conglomerating CTS-CAT with β-CD-Fe complex onto the surface of a glassy carbon electrode and used for the electrochemical evaluation of hydrogen peroxide (Figure 3). Further, the inclusion of ferrocene units offered great durability to the β-cyclodextrin complex.

Hydrogen Peroxide Biosensor
In a providential work, Dong's group developed an electrochemical biosensor based on chitosan-immobilized enzymes and a β-cyclodextrin-containing ferrocene complex for the biological detection of H 2 O 2 [70]. A CTS-CAT/β-CD-FE-grafted electrode was constructed by conglomerating CTS-CAT with β-CD-Fe complex onto the surface of a glassy carbon electrode and used for the electrochemical evaluation of hydrogen peroxide ( Figure 3). Further, the inclusion of ferrocene units offered great durability to the β-cyclodextrin complex.

Hydrogen Peroxide Biosensor
In a providential work, Dong's group developed an electrochemical biosensor based on chitosan-immobilized enzymes and a β-cyclodextrin-containing ferrocene complex for the biological detection of H2O2 [70]. A CTS-CAT/β-CD-FE-grafted electrode was constructed by conglomerating CTS-CAT with β-CD-Fe complex onto the surface of a glassy carbon electrode and used for the electrochemical evaluation of hydrogen peroxide (Figure 3). Further, the inclusion of ferrocene units offered great durability to the β-cyclodextrin complex.

Peptide Biosensors
Xia Lu and co-workers invented a new fluorescent nano-bioaptamer sensor assimilating a β-cyclodextrin-modified quantum dot luminescent probe and applied it to find the (PDGF)-BB factor that showed significant fluorescence quenching ( Figure 4). The reason for this quenching phenomenon was initiated by the Fc unit that recognized the host-guest interaction, followed by the blockage of photoexcited electron transport between Fc and CDs supported by DNA that reduced fluorescence. This ferrocene-marked adapter served as a sensitive and selective biological receptor for detecting platelet-derived growth factor BB [71].

Peptide Biosensors
Xia Lu and co-workers invented a new fluorescent nano-bioaptamer sensor assimilating a β-cyclodextrin-modified quantum dot luminescent probe and applied it to find the (PDGF)-BB factor that showed significant fluorescence quenching ( Figure 4). The reason for this quenching phenomenon was initiated by the Fc unit that recognized the hostguest interaction, followed by the blockage of photoexcited electron transport between Fc and CDs supported by DNA that reduced fluorescence. This ferrocene-marked adapter served as a sensitive and selective biological receptor for detecting platelet-derived growth factor BB [71].

Chemosensing Applications
The astonishing stability, easy functionalization, and distinctive redox behavior of the ferrocenyl nucleus have led to expeditious research in molecular recognition studies.

Chemosensing Applications
The astonishing stability, easy functionalization, and distinctive redox behavior of the ferrocenyl nucleus have led to expeditious research in molecular recognition studies. Recently, Preet and Arora with their colleagues combined the electrochemical activity of ferrocene with the chemical ligation potential of organosilanes via the preparation of ferrocene-tailed, chalcone-based organosilanes from ethynylferrocene precursor (71) using click chemistry [72]. The resultant ligands were examined for their ion sensing potential and exhibited their sensing ability for Cu +2 ion on the addition of EDTA with the reversal of the sensing phenomenon. Moreover, the presence of the ferrocene nucleus offered a diverse signaling sensor that was helpful in the naked-eye revelation of Cu +1 ion within a limit of detection of 10 µm ( Figure 5).

Chemosensing Applications
The astonishing stability, easy functionalization, and distinctive redox behavior of the ferrocenyl nucleus have led to expeditious research in molecular recognition studies. Recently, Preet and Arora with their colleagues combined the electrochemical activity of ferrocene with the chemical ligation potential of organosilanes via the preparation of ferrocene-tailed, chalcone-based organosilanes from ethynylferrocene precursor (71) using click chemistry [72]. The resultant ligands were examined for their ion sensing potential and exhibited their sensing ability for Cu +2 ion on the addition of EDTA with the reversal of the sensing phenomenon. Moreover, the presence of the ferrocene nucleus offered a diverse signaling sensor that was helpful in the naked-eye revelation of Cu +1 ion within a limit of detection of 10 µm ( Figure 5). Another research group constructed two highly selective ferrocene-based chemosensing materials without the inclusion of nitrogen atoms for the chemoselective detection of Cu 2+ and Hg 2+ ions [73]. Compound 72 showed remarkable detection aptitude for Hg + Another research group constructed two highly selective ferrocene-based chemosensing materials without the inclusion of nitrogen atoms for the chemoselective detection of Cu 2+ and Hg 2+ ions [73]. Compound 72 showed remarkable detection aptitude for Hg + via optical and electrochemical signals with a lower value of detection limit that further confirmed its sensor potential. Further, ferrocene-functionalized sulfone 73 also demonstrated highly selective detection toward Cu 2+ with the detection limit approaching 5.22 × 10 −7 M ( Figure 6).
Molecules 2023, 28, 5765 28 of 78 via optical and electrochemical signals with a lower value of detection limit that further confirmed its sensor potential. Further, ferrocene-functionalized sulfone 73 also demonstrated highly selective detection toward Cu 2+ with the detection limit approaching 5.22 × 10 −7 M ( Figure 6). In a more recent work, a ferrocene-grafted chemosensor was proposed and assessed for its selectivity in the detection of Al 3+ cations [74]. Mechanistic study revealed that the probe compound captured the Al +3 and enhanced the fluorescence intensity 200 times. Various characterization techniques confirmed the formation of a complex between com- In a more recent work, a ferrocene-grafted chemosensor was proposed and assessed for its selectivity in the detection of Al 3+ cations [74]. Mechanistic study revealed that the probe compound captured the Al +3 and enhanced the fluorescence intensity 200 times. Various characterization techniques confirmed the formation of a complex between compound 74 and Al 3+ , and were successfully used to find out the Al 3+ content in environmental samples ( Figure 7). In a more recent work, a ferrocene-grafted chemosensor was proposed and assessed for its selectivity in the detection of Al 3+ cations [74]. Mechanistic study revealed that the probe compound captured the Al +3 and enhanced the fluorescence intensity 200 times. Various characterization techniques confirmed the formation of a complex between compound 74 and Al 3+ , and were successfully used to find out the Al 3+ content in environmental samples (Figure 7). Finally, the method employed by Atasen explained the sensing potential of Be 2+ by ion pair formation with ferrocenyl naphthoquinones radicals and dianions [75]. Cyclovoltammetric analysis revealed that the sensitivity effect was more pronounced in the case of Be 2+ among all alkaline earth metals that formed an ion pair with Fc-cnq-Ia and could selectively sense the ultra-trace amount of Be 2+ (LOD 3.6 ppb). The proposed mechanism of the ion pair formation reaction between Be 2+ ion and Fc-cnq-1a is depicted in Figure 8. Finally, the method employed by Atasen explained the sensing potential of Be 2+ by ion pair formation with ferrocenyl naphthoquinones radicals and dianions [75]. Cyclovoltammetric analysis revealed that the sensitivity effect was more pronounced in the case of Be 2+ among all alkaline earth metals that formed an ion pair with Fc-cnq-Ia and could selectively sense the ultra-trace amount of Be 2+ (LOD 3.6 ppb). The proposed mechanism of the ion pair formation reaction between Be 2+ ion and Fc-cnq-1a is depicted in Figure 8.  Anion recognition and anion sensing are of special interest not only because of their significant roles in biological systems but also because they can work in both organic and aqueous media. The group of Hosseinzadeh and Maliji recently reported the synthesis of an innovative tetra ferrocene-triazole-amide-based Calix [4] arene and described it as an efficient optical and electrochemical anion sensor [76]. CV and proton nuclear magnetic resonance titration tests disclosed the selective and ultrasensitive behavior of compound 79 for F − with a detection limit of 2.98 µM. The above-reported outcomes could be openand-shut proof of the efficiency of a newly synthesized compound as a sensitive moiety for F − anion ( Figure 9). Anion recognition and anion sensing are of special interest not only because of their significant roles in biological systems but also because they can work in both organic and aqueous media. The group of Hosseinzadeh and Maliji recently reported the synthesis of an innovative tetra ferrocene-triazole-amide-based Calix [4] arene and described it as an efficient optical and electrochemical anion sensor [76]. CV and proton nuclear magnetic resonance titration tests disclosed the selective and ultrasensitive behavior of compound 79 for F − with a detection limit of 2.98 µM. The above-reported outcomes could be openand-shut proof of the efficiency of a newly synthesized compound as a sensitive moiety for F − anion (Figure 9). an innovative tetra ferrocene-triazole-amide-based Calix [4] arene and described it as an efficient optical and electrochemical anion sensor [76]. CV and proton nuclear magnetic resonance titration tests disclosed the selective and ultrasensitive behavior of compound 79 for F − with a detection limit of 2.98 µM. The above-reported outcomes could be openand-shut proof of the efficiency of a newly synthesized compound as a sensitive moiety for F − anion ( Figure 9). Wu and co-workers designed four phenanthroimidazole derivatives with ferrocene scaffolds and examined their anion recognition properties towards twelve common anions such as F − , Cl − , Br − , SO 4 2− , OAc − , etc. [77]. Investigation of these common anions via spectroscope studies indicated that compounds 78b and 78d sensed B 4 O 7 −2 specifically and the sensing potential was realized through the naked eye, 1 H NMR, and various titration experiments, concluding that the binding force between B 4 O 7 −2 and 78b was hydrogen bonding ( Figure 10). Wu and co-workers designed four phenanthroimidazole derivatives with ferrocene scaffolds and examined their anion recognition properties towards twelve common anions such as F − , Cl − , Br − , SO4 2− , OAc − , etc. [77]. Investigation of these common anions via spectroscope studies indicated that compounds 78b and 78d sensed B4O7 −2 specifically and the sensing potential was realized through the naked eye, 1 H NMR, and various titration experiments, concluding that the binding force between B4O7 −2 and 78b was hydrogen bonding ( Figure 10). Another interesting example was reported in Feng's publication where the author designed a degradable electrochemical sensing system for the determination of nitrite moiety in pickle juice [78]. Nitrite is a commonly used food preservative, but a side effect was also reported as it reacted with amino acids and produced a carcinogenic effect [79]. Another interesting example was reported in Feng's publication where the author designed a degradable electrochemical sensing system for the determination of nitrite moiety in pickle juice [78]. Nitrite is a commonly used food preservative, but a side effect was also reported as it reacted with amino acids and produced a carcinogenic effect [79]. A carbon electrode was developed by installing ferrocenyl derivatives on the surface of screen-printed electrodes; characterization techniques realized that the sensitivity and stability of the reported sensor were brilliant, with R.S.D lower than 2.1% ( Figure 11). In an advanced work, Zaleskaya and co-authors fabricated ion pair sensing materials, having benzo crown ether and ferrocene-functionalized squaramide as the cation accepting center and anion welcoming center [80]. Receptors 79 and 80 were observed to be stronger candidates that could sense negative ions more efficiently in the company of positively charged species. This research offered a huge platform for the measurement of salt content in a real-life situation in which an appropriate amount of salt is required ( Figure  12

Electron Beam Lithographic Application
Ferrocene-grafted organic-inorganic hybrids are an innovation category of homo polymeric resists, and the recently synthesized poly-(TPMA) and poly-(FEMA-CO-TPMA) were studied for their large-scale micro/nanolithographic functions [81]. These copolymers also behaved like light resists when exposed to an electron beam lithography device for arranging nano-marked characters. The ultra-sensitivity and contrast of 2% poly (FEMA)-CO-TPMA 82 resulted from ferrocene's inclusion, which elevated the sensitivity and resolution scale of the polymer in comparison to 83 ( Figure 13). In an advanced work, Zaleskaya and co-authors fabricated ion pair sensing materials, having benzo crown ether and ferrocene-functionalized squaramide as the cation accepting center and anion welcoming center [80]. Receptors 79 and 80 were observed to be stronger candidates that could sense negative ions more efficiently in the company of positively charged species. This research offered a huge platform for the measurement of salt content in a real-life situation in which an appropriate amount of salt is required ( Figure 12). In an advanced work, Zaleskaya and co-authors fabricated ion pair sensing materials, having benzo crown ether and ferrocene-functionalized squaramide as the cation accepting center and anion welcoming center [80]. Receptors 79 and 80 were observed to be stronger candidates that could sense negative ions more efficiently in the company of positively charged species. This research offered a huge platform for the measurement of salt content in a real-life situation in which an appropriate amount of salt is required ( Figure  12

Electron Beam Lithographic Application
Ferrocene-grafted organic-inorganic hybrids are an innovation category of homo polymeric resists, and the recently synthesized poly-(TPMA) and poly-(FEMA-CO-TPMA) were studied for their large-scale micro/nanolithographic functions [81]. These copolymers also behaved like light resists when exposed to an electron beam lithography device for arranging nano-marked characters. The ultra-sensitivity and contrast of 2% poly (FEMA)-CO-TPMA 82 resulted from ferrocene's inclusion, which elevated the sensitivity and resolution scale of the polymer in comparison to 83 ( Figure 13).

Electron Beam Lithographic Application
Ferrocene-grafted organic-inorganic hybrids are an innovation category of homo polymeric resists, and the recently synthesized poly-(TPMA) and poly-(FEMA-CO-TPMA) were studied for their large-scale micro/nanolithographic functions [81]. These copolymers also behaved like light resists when exposed to an electron beam lithography device for arranging nano-marked characters. The ultra-sensitivity and contrast of 2% poly (FEMA)-CO-TPMA 82 resulted from ferrocene's inclusion, which elevated the sensitivity and resolution scale of the polymer in comparison to 83 ( Figure 13).

Nonlinear Optics Applications of Ferrocene-Based Conjugates
Relying on the merits of triphenylamine and ferrocenes as building blocks, novel compounds based on N, (85) were designed and synthesized, and a detailed study of these organometallic analogs revealed their NLO potential (Scheme 40). The cyclic voltammogram and ON/OFF aperture Z-scan measurements confirmed the third-order nonlinear optical (NLO) properties of these reported compounds, considered to be the result of their extended conjugation system [82]. Further, optically switching properties of these derivatives were also examined, which further confirmed their novelty. In the same vein, Pielak's group reported the first-and second-order nonlinear optical properties of ferrocene-linked indolino-oxazolidine derivatives through scattering

Nonlinear Optics Applications of Ferrocene-Based Conjugates
Relying on the merits of triphenylamine and ferrocenes as building blocks, novel compounds based on N, (85) were designed and synthesized, and a detailed study of these organometallic analogs revealed their NLO potential (Scheme 40). The cyclic voltammogram and ON/OFF aperture Z-scan measurements confirmed the third-order nonlinear optical (NLO) properties of these reported compounds, considered to be the result of their extended conjugation system [82]. Further, optically switching properties of these derivatives were also examined, which further confirmed their novelty.

Nonlinear Optics Applications of Ferrocene-Based Conjugates
Relying on the merits of triphenylamine and ferrocenes as building blocks, novel compounds based on N, (85) were designed and synthesized, and a detailed study of these organometallic analogs revealed their NLO potential (Scheme 40). The cyclic voltammogram and ON/OFF aperture Z-scan measurements confirmed the third-order nonlinear optical (NLO) properties of these reported compounds, considered to be the result of their extended conjugation system [82]. Further, optically switching properties of these derivatives were also examined, which further confirmed their novelty. In the same vein, Pielak's group reported the first-and second-order nonlinear optical properties of ferrocene-linked indolino-oxazolidine derivatives through scattering techniques, which showed that the β factor for NLO properties and β-POF/β-CF value was large enough for devices used daily [83]. Quantum study also revealed that the β value of the protonated "ON" form emerged from two lower-energy excited states, which partially diminished their effect due to the counter-direction of light-stimulated charge transfer ( Figure 14).

of 78
techniques, which showed that the β factor for NLO properties and β-POF/β-CF value was large enough for devices used daily [83]. Quantum study also revealed that the β value of the protonated "ON" form emerged from two lower-energy excited states, which partially diminished their effect due to the counter-direction of light-stimulated charge transfer ( Figure 14).

Solar Cell Applications
Ferrocene-linked tetracyano butadiene derivatives of diketopyrrolopyrroles SM1 and SM2 were extensively studied for their photovoltaic features and reported with maximum power conversion efficiency for solar cell devices ( Figure 15). This energy conversion potential of SM2 was remarkable when compared with SM1 because of the higher value of short-circuit current (Jsc) and fill factor (FF). Therefore, the ferrocenethiophene donor unit offered a remarkable non-fullerene acceptor and presented chief proficiency in the advancement of non-fullerene organic solar cells [83]. The newly synthesized heterometallic compounds, designed for solar cell applications, were two ferrocene-containing Ni-bithiolate complexes, D-1 and D-2, functionalized with 2,2-diacetyl and 2-NO2 linker, respectively, reported in a more advanced work of Amit and co-workers (Scheme 41). These synthesized ligands exhibited excellent donor sensitization potential, examined by light-driven spectral analysis. The photovoltaic index of the synthesized materials was not so absurd but the inclusion of TiO2 nanoparticles

Solar Cell Applications
Ferrocene-linked tetracyano butadiene derivatives of diketopyrrolopyrroles SM 1 and SM 2 were extensively studied for their photovoltaic features and reported with maximum power conversion efficiency for solar cell devices ( Figure 15). This energy conversion potential of SM 2 was remarkable when compared with SM 1 because of the higher value of short-circuit current (Jsc) and fill factor (FF). Therefore, the ferrocenethiophene donor unit offered a remarkable non-fullerene acceptor and presented chief proficiency in the advancement of non-fullerene organic solar cells [83]. techniques, which showed that the β factor for NLO properties and β-POF/β-CF value was large enough for devices used daily [83]. Quantum study also revealed that the β value of the protonated "ON" form emerged from two lower-energy excited states, which partially diminished their effect due to the counter-direction of light-stimulated charge transfer ( Figure 14).

Solar Cell Applications
Ferrocene-linked tetracyano butadiene derivatives of diketopyrrolopyrroles SM1 and SM2 were extensively studied for their photovoltaic features and reported with maximum power conversion efficiency for solar cell devices ( Figure 15). This energy conversion potential of SM2 was remarkable when compared with SM1 because of the higher value of short-circuit current (Jsc) and fill factor (FF). Therefore, the ferrocenethiophene donor unit offered a remarkable non-fullerene acceptor and presented chief proficiency in the advancement of non-fullerene organic solar cells [83]. The newly synthesized heterometallic compounds, designed for solar cell applications, were two ferrocene-containing Ni-bithiolate complexes, D-1 and D-2, functionalized with 2,2-diacetyl and 2-NO2 linker, respectively, reported in a more advanced work of Amit and co-workers (Scheme 41). These synthesized ligands exhibited excellent donor sensitization potential, examined by light-driven spectral analysis. The photovoltaic index of the synthesized materials was not so absurd but the inclusion of TiO2 nanoparticles enhanced the level of charge-reversing ability that increased the sensitization to the compromising stage [84]. The newly synthesized heterometallic compounds, designed for solar cell applications, were two ferrocene-containing Ni-bithiolate complexes, D-1 and D-2, functionalized with 2,2-diacetyl and 2-NO 2 linker, respectively, reported in a more advanced work of Amit and co-workers (Scheme 41). These synthesized ligands exhibited excellent donor sensitization potential, examined by light-driven spectral analysis. The photovoltaic index of the synthesized materials was not so absurd but the inclusion of TiO 2 nanoparticles enhanced the level of charge-reversing ability that increased the sensitization to the compromising stage [84]. Incorporating ferrocenyl groups into meso-substituted porphyrins with various donor substituents affords three metallo ligands: ZnP1, ZnP2, and ZnP3 [85]. Self-aggregated zinc porphyrins and a linker, ZnPA, were utilized as sensitizers in dye-sensitized solar cells. It was observed that the photocurrent transformation potential of self-aggregated units was high; particularly, an amide bridge and ferrocene-based zinc porphyrin (ZnP1) solar cell exhibited maximum photocurrent turning capacity compared with its derivatives ( Figure 16).  Incorporating ferrocenyl groups into meso-substituted porphyrins with various donor substituents affords three metallo ligands: ZnP 1 , ZnP 2 , and ZnP 3 [85]. Self-aggregated zinc porphyrins and a linker, ZnPA, were utilized as sensitizers in dye-sensitized solar cells. It was observed that the photocurrent transformation potential of self-aggregated units was high; particularly, an amide bridge and ferrocene-based zinc porphyrin (ZnP1) solar cell exhibited maximum photocurrent turning capacity compared with its derivatives (Figure 16). Incorporating ferrocenyl groups into meso-substituted porphyrins with various donor substituents affords three metallo ligands: ZnP1, ZnP2, and ZnP3 [85]. Self-aggregated zinc porphyrins and a linker, ZnPA, were utilized as sensitizers in dye-sensitized solar cells. It was observed that the photocurrent transformation potential of self-aggregated units was high; particularly, an amide bridge and ferrocene-based zinc porphyrin (ZnP1) solar cell exhibited maximum photocurrent turning capacity compared with its derivatives ( Figure 16).

Supercapacitor Applications
An advanced cobalt-graded poly-catenated metal-organic framework was constructed by Rajak's group and its electrochemical properties were extensively studied [86]. The synthesized framework (88) was applied with a binder to modify a glassy carbon electrode and evaluated its supercapacitor performance with or without a binder group. Detailed analysis was performed with a binder containing a modified glassy carbon electrode, which exhibited the superb value of capacitance and stability of that metal-organic framework onto the surface of the electrodes (Figure 17). An advanced cobalt-graded poly-catenated metal-organic framework was constructed by Rajak's group and its electrochemical properties were extensively studied [86]. The synthesized framework (88) was applied with a binder to modify a glassy carbon electrode and evaluated its supercapacitor performance with or without a binder group. Detailed analysis was performed with a binder containing a modified glassy carbon electrode, which exhibited the superb value of capacitance and stability of that metal-organic framework onto the surface of the electrodes (Figure 17). Teimuri et al. developed a typical supercapacitor hinged on a glassy carbon electrode, mutated with graphene-oxide-loaded ferrocene through ring-opening polymerization ( Figure 18). The amalgamated polyFc was impaired on glassy carbon, and its electrochemical potential was noticed through CV, GCD, and EIS techniques. All these characterization techniques revealed that the modified material showed excellent electrochemical features as a supercapacitor electrode with a high capacitance value of 200 Fg −1 [87].  Teimuri et al. developed a typical supercapacitor hinged on a glassy carbon electrode, mutated with graphene-oxide-loaded ferrocene through ring-opening polymerization ( Figure 18). The amalgamated polyFc was impaired on glassy carbon, and its electrochemical potential was noticed through CV, GCD, and EIS techniques. All these characterization techniques revealed that the modified material showed excellent electrochemical features as a supercapacitor electrode with a high capacitance value of 200 Fg −1 [87]. An advanced cobalt-graded poly-catenated metal-organic framework was constructed by Rajak's group and its electrochemical properties were extensively studied [86]. The synthesized framework (88) was applied with a binder to modify a glassy carbon electrode and evaluated its supercapacitor performance with or without a binder group. Detailed analysis was performed with a binder containing a modified glassy carbon electrode, which exhibited the superb value of capacitance and stability of that metal-organic framework onto the surface of the electrodes (Figure 17). Teimuri et al. developed a typical supercapacitor hinged on a glassy carbon electrode, mutated with graphene-oxide-loaded ferrocene through ring-opening polymerization ( Figure 18). The amalgamated polyFc was impaired on glassy carbon, and its electrochemical potential was noticed through CV, GCD, and EIS techniques. All these characterization techniques revealed that the modified material showed excellent electrochemical features as a supercapacitor electrode with a high capacitance value of 200 Fg −1 [87].

Uses of Ferrocene in Modern Fuel Cells or Batteries
Ferrocene as an organometallic compound has been investigated as a standard electrode in redox potential measurements because of its excellent redox activity. In this study, the redox activity of ferrocene was utilized to design two ferrocene-functionalized polymers through cheap Schiff base interaction with melamine as the backbone [88]. Destructive distillation of synthesized material produced nano hybrids along with the Fe 3 C/Fe moiety. Further, a rechargeable zinc-air battery was constructed by utilizing Fe 3 C/Fe as a cathode catalyst which exhibited high power density, a small charge-discharge gap, and remarkable stability with less activity decay, in comparison to Pt/C containing commercial batteries ( Figure 19). Ferrocene as an organometallic compound has been investigated as a standard electrode in redox potential measurements because of its excellent redox activity. In this study, the redox activity of ferrocene was utilized to design two ferrocene-functionalized polymers through cheap Schiff base interaction with melamine as the backbone [88]. Destructive distillation of synthesized material produced nano hybrids along with the Fe3C/Fe moiety. Further, a rechargeable zinc-air battery was constructed by utilizing Fe3C/Fe as a cathode catalyst which exhibited high power density, a small charge-discharge gap, and remarkable stability with less activity decay, in comparison to Pt/C containing commercial batteries ( Figure 19). Figure 19. Synthesis of ferrocene-functionalized POPs and nitrogen-doped carbon catalysts. Figure 19. Synthesis of ferrocene-functionalized POPs and nitrogen-doped carbon catalysts. Liu et al. introduced an efficient ferrocene-based electrode for Li 1+ batteries with excellent electrochemical features such as significant reversible power, high charge retention, and remarkable charge-discharge rate capability [89]. XRD and cyclic voltammetry analysis showed that the electrochemical reaction of ferrocene was partially reversible and some metallic iron (Fe) clung to the anode even after de-lithiation. The metallic iron and solid electrolyte interface were amenable to the superb electrochemical properties of the designed electrode.

Redox-Mediating Potential of Ferrocene Derivatives
Among redox-active materials, ferrocene and ferrocene-based polymeric materials are of special interest due to their high stability in redox reactions and facile derivative syntheses. For example, an array of redox poly-(2-methaarcryloyloxy) and light-sensitive polymers based on ferrocenyl carboxidate-Co-4-methylacryloamino-4-nitroazobenzene (P (F C EMA-MAAZoo)s) were synthesized through free radical oligomerization protocol [90]. Light-responsive potential and redox properties of these polymers were evaluated via spectroscopy and cyclovoltammetric analysis. These polymeric slides were thought to have vital applications in a potentially high-information storehouse, and their mechanism of information storage is described in Figure 20. Liu et al. introduced an efficient ferrocene-based electrode for Li 1+ batteries with excellent electrochemical features such as significant reversible power, high charge retention, and remarkable charge-discharge rate capability [89]. XRD and cyclic voltammetry analysis showed that the electrochemical reaction of ferrocene was partially reversible and some metallic iron (Fe) clung to the anode even after de-lithiation. The metallic iron and solid electrolyte interface were amenable to the superb electrochemical properties of the designed electrode.

Redox-Mediating Potential of Ferrocene Derivatives
Among redox-active materials, ferrocene and ferrocene-based polymeric materials are of special interest due to their high stability in redox reactions and facile derivative syntheses. For example, an array of redox poly-(2-methaarcryloyloxy) and light-sensitive polymers based on ferrocenyl carboxidate-Co-4-methylacryloamino-4-nitroazobenzene (P (FCEMA-MAAZoo)s) were synthesized through free radical oligomerization protocol [90]. Light-responsive potential and redox properties of these polymers were evaluated via spectroscopy and cyclovoltammetric analysis. These polymeric slides were thought to have vital applications in a potentially high-information storehouse, and their mechanism of information storage is described in Figure 20.

Application in Photo-Induced Electron Transfer: Cascaded Molecular Logic
Karmakar and co-workers combined the redox activity of ferrocene with the photophysical properties of coumarin and quinoline through the development of a molecular tool that turned on luminescence through the photo-induced electron transfer (PET) phenomenon with d 10 metal ions [91]. Further, this research group also fabricated a prob (a), which behaved differently with various metal ions through fluorescent expression. Taking the edge of the differential selectiveness of this probe, binary basic logic circuits "INHIBII" and "OR" were designed, which were used in biosensing applications with slight modifications (Figure 21). Karmakar and co-workers combined the redox activity of ferrocene with the photophysical properties of coumarin and quinoline through the development of a molecular tool that turned on luminescence through the photo-induced electron transfer (PET) phenomenon with d 10 metal ions [91]. Further, this research group also fabricated a prob (a), which behaved differently with various metal ions through fluorescent expression. Taking the edge of the differential selectiveness of this probe, binary basic logic circuits "INHIBII" and "OR" were designed, which were used in biosensing applications with slight modifications ( Figure 21).

Role of Ferrocene in Catalytic Graphitization
In laboratory-prepared, modified novolak phenolic resins, graphitization was induced using ferrocene (PR). A recent study described the morphological and structural differences in the intermediate carbon structures containing iron throughout the graphitization process, obtained after several steps of heat treatment from 200 to 1000 °C. The presence of ferrocene (a catalyst and carbon source) and the reducing environment are both responsible for the induction of phenolic resin graphitization in onion-like hollow carbon. The hollow onion-shaped material facilitated 96% elimination in 5 min in the photocatalytic research of the pesticide atrazine (ATZ) in an aqueous medium and affected the mechanism of ATZ degradation and the synthesis of atrazine-2-hydroxy (HAT) in various reactors ( Figure 22) [92].

Role of Ferrocene in Catalytic Graphitization
In laboratory-prepared, modified novolak phenolic resins, graphitization was induced using ferrocene (PR). A recent study described the morphological and structural differences in the intermediate carbon structures containing iron throughout the graphitization process, obtained after several steps of heat treatment from 200 to 1000 • C. The presence of ferrocene (a catalyst and carbon source) and the reducing environment are both responsible for the induction of phenolic resin graphitization in onion-like hollow carbon. The hollow onion-shaped material facilitated 96% elimination in 5 min in the photocatalytic research of the pesticide atrazine (ATZ) in an aqueous medium and affected the mechanism of ATZ degradation and the synthesis of atrazine-2-hydroxy (HAT) in various reactors ( Figure 22) [92]. 3.1.14. Ferrocene-Based Polymer as a Scavenger for Radioiodine By using the Schiff base reaction, the porous ferrocene-linked organic polymer (FcTz-POP) was synthesized and exhibited a high iodine vapor capacity, 1.8 times that of a reference material without ferrocene (BpTz-POP). FcTz-POP exhibits a rapid rate of I2 adsorption and a relatively high affinity due to the abundance of ferrocene blocks with a 3.1.14. Ferrocene-Based Polymer as a Scavenger for Radioiodine By using the Schiff base reaction, the porous ferrocene-linked organic polymer (FcTz-POP) was synthesized and exhibited a high iodine vapor capacity, 1.8 times that of a reference material without ferrocene (BpTz-POP). FcTz-POP exhibits a rapid rate of I 2 adsorption and a relatively high affinity due to the abundance of ferrocene blocks with a high electron density (Scheme 42). The iodine capturing for FcTzPOP, which is substantially higher than that of ferrocene-free BpTz-POP, can reach up to 396 wt% at 348 K and atmospheric pressure by integrating ferrocene building blocks. This is mostly due to the cyclopentadienyl group, which interacts with the iodine molecule more strongly than the benzene ring, and the Fe 2+ on ferrocene, which may electrostatically bind negatively charged polyiodides [93]. 3.1.14. Ferrocene-Based Polymer as a Scavenger for Radioiodine By using the Schiff base reaction, the porous ferrocene-linked organic polymer (FcTz-POP) was synthesized and exhibited a high iodine vapor capacity, 1.8 times that of a reference material without ferrocene (BpTz-POP). FcTz-POP exhibits a rapid rate of I2 adsorption and a relatively high affinity due to the abundance of ferrocene blocks with a high electron density (Scheme 42). The iodine capturing for FcTzPOP, which is substantially higher than that of ferrocene-free BpTz-POP, can reach up to 396 wt% at 348 K and atmospheric pressure by integrating ferrocene building blocks. This is mostly due to the cyclopentadienyl group, which interacts with the iodine molecule more strongly than the benzene ring, and the Fe 2+ on ferrocene, which may electrostatically bind negatively charged polyiodides [93].  (89), incorporating the alternate units of TPA and fluorene as the main skeleton. An efficient method of controlling their morphology was successfully demonstrated to produce uniform nanostructures as spheres and hollow polyhedrons for specific applications (Scheme 43). When built into laser-induced breakdown spectroscopy (LIBs), the spherical polymer (SP) with a microporous structure had remarkable redox performances and displayed high capacity, large cycle stability, and better rate capability. The analogous HP provided rising BET surface areas of 1195 m 2 g −1 in the precursorderived ceramics by merging the intrinsic micropore of the organic frameworks and the macropore from the hollow polyhedron, and the as-made carbon materials were further applicable to remove water [94].
drons for specific applications (Scheme 43). When built into laser-induced breakdown spectroscopy (LIBs), the spherical polymer (SP) with a microporous structure had remarkable redox performances and displayed high capacity, large cycle stability, and better rate capability. The analogous HP provided rising BET surface areas of 1195 m 2 g −1 in the precursor-derived ceramics by merging the intrinsic micropore of the organic frameworks and the macropore from the hollow polyhedron, and the as-made carbon materials were further applicable to remove water [94].

Applications in Catalysis
Because of their accessibility, novel stereochemical characteristics, the extensive variability of co-ordination approaches and options for the modification of the steric hindrance, thermal stability and tolerance to oxygen and water, serene derivatization, and electronic properties, ferrocene-grafted ligands created a large number of multipurpose ligand architectures in the recent trend of asymmetric catalysis.

Ferrocene-Functionalized Phosphine Ligand
The chemistry of the di-and polyphosphine ferrocene-based ligands in catalytic cross-coupling is detailed in carbon-carbon, carbon-nitrogen, and carbon-oxygen bondforming reactions. Recently, an efficient ferrocene-grafted bi-functional phosphine-catalyzed enantioselective cycloaddition reaction of oxo-allenes with a large number of ketones was reported in order to prepare substituted dihydropyran derivative (90) [95]. Mechanistic study revealed that multifunctional phosphine catalyst containing ferrocene moiety (P5), had excellent stereoselectivity in Rauhut Currier reaction, allylation, and chiral cycloaddition reaction, among all other ferrocene-functionalized phosphine ligands (Figure 23a). Because of ferrocene's strong electron-donating nature as well as its distinctive structure, chiral compounds based on ferrocene played important roles in asymmetric Scheme 43. Ferrocene-fluorene-appended branched polymer.

Applications in Catalysis
Because of their accessibility, novel stereochemical characteristics, the extensive variability of co-ordination approaches and options for the modification of the steric hindrance, thermal stability and tolerance to oxygen and water, serene derivatization, and electronic properties, ferrocene-grafted ligands created a large number of multipurpose ligand architectures in the recent trend of asymmetric catalysis.

Ferrocene-Appended Thiazolidine Ligand Framework
Ferrocene derivatives bearing donating groups exhibit a large variety of applications, especially in metal-catalyzed modern organic reactions. Based on the impetus provided using thiazoline-oxazoline ligands (91a-d), the investigations directed towards the synthesis of asymmetric disubstituted ferrocenyl ligands functionalized on the thiazoline framework were carried out. The ability of these new bidentate [N, S]-ferrocene ligands to act in Pd-assisted asymmetric allylation had also been described and comes with their oxazoline counterparts ( Figure 24). Further, the ortho-directing property of thiazoline

Ferrocene-Appended Thiazolidine Ligand Framework
Ferrocene derivatives bearing donating groups exhibit a large variety of applications, especially in metal-catalyzed modern organic reactions. Based on the impetus provided using thiazoline-oxazoline ligands (91a-d), the investigations directed towards the synthesis of asymmetric disubstituted ferrocenyl ligands functionalized on the thiazoline framework were carried out. The ability of these new bidentate [N, S]-ferrocene ligands to act in Pd-assisted asymmetric allylation had also been described and comes with their oxazoline counterparts ( Figure 24). Further, the ortho-directing property of thiazoline moiety for stereoselective ortho-lithiation reaction was also observed to always give an endoselective product [97].

Chiral Oxazolinyl Hydroxyl-Clubbed Ferrocene in Asymmetric Reactions
Chiral oxazolinyl hydroxyl ferrocenes have been reported in the literature, particularly the most recent developments in enantioselective applications of ferrocene derivatives and diastereoselective production. Due to the successful functionalization of the aromatic Cp ring over the past few decades, chiral ferrocene structural variety has increased. Accordingly, multiple research groups have created sophisticated examples of synthetic procedures for N,O bidentate ferrocene moieties (92a-c) that have mostly been used as chiral catalysts in zinc-mediated nucleophilic addition reactions to carbonyl compounds. The mechanism subsumes freshly designed competitive catalysts in alkyl and aryl transfers to aldehydes ( Figure 25) [97].

Ferrocene Ligand in sp 2 -sp 3 Coupling Reactions
In an advanced work, Xu and coworkers designed a series of novel ferrocene-based bidentate ligands (93) with di(1-adamantyl)phosphine as an anchoring group. After a complete characterization of the ligand structure through XRD, the group applied synthesized chelating catalysts in many Csp2-Csp3 coupling reactions such as Murahashi-Feringa, Kumada-Corriu, Negishi, and Suzuki-Miyaura, with good to excellent yields. The devised method was employed for the synthesis of nine drug-like molecules in active pharmaceutical ingredient (API) synthesis ( Figure 26) [98].

Chiral Oxazolinyl Hydroxyl-Clubbed Ferrocene in Asymmetric Reactions
Chiral oxazolinyl hydroxyl ferrocenes have been reported in the literature, particularly the most recent developments in enantioselective applications of ferrocene derivatives and diastereoselective production. Due to the successful functionalization of the aromatic C p ring over the past few decades, chiral ferrocene structural variety has increased. Accordingly, multiple research groups have created sophisticated examples of synthetic procedures for N,O bidentate ferrocene moieties (92a-c) that have mostly been used as chiral catalysts in zinc-mediated nucleophilic addition reactions to carbonyl compounds. The mechanism subsumes freshly designed competitive catalysts in alkyl and aryl transfers to aldehydes ( Figure 25) [98].

Chiral Oxazolinyl Hydroxyl-Clubbed Ferrocene in Asymmetric Reactions
Chiral oxazolinyl hydroxyl ferrocenes have been reported in the literature, particularly the most recent developments in enantioselective applications of ferrocene derivatives and diastereoselective production. Due to the successful functionalization of the aromatic Cp ring over the past few decades, chiral ferrocene structural variety has increased. Accordingly, multiple research groups have created sophisticated examples of synthetic procedures for N,O bidentate ferrocene moieties (92a-c) that have mostly been used as chiral catalysts in zinc-mediated nucleophilic addition reactions to carbonyl compounds. The mechanism subsumes freshly designed competitive catalysts in alkyl and aryl transfers to aldehydes ( Figure 25) [97].

Ferrocene Ligand in sp 2 -sp 3 Coupling Reactions
In an advanced work, Xu and coworkers designed a series of novel ferrocene-based bidentate ligands (93) with di(1-adamantyl)phosphine as an anchoring group. After a complete characterization of the ligand structure through XRD, the group applied synthesized chelating catalysts in many Csp2-Csp3 coupling reactions such as Murahashi-Feringa, Kumada-Corriu, Negishi, and Suzuki-Miyaura, with good to excellent yields. The devised method was employed for the synthesis of nine drug-like molecules in active pharmaceutical ingredient (API) synthesis ( Figure 26) [98].

Ferrocene Ligand in sp 2 -sp 3 Coupling Reactions
In an advanced work, Xu and coworkers designed a series of novel ferrocene-based bidentate ligands (93) with di(1-adamantyl)phosphine as an anchoring group. After a complete characterization of the ligand structure through XRD, the group applied synthesized chelating catalysts in many C sp2 -C sp3 coupling reactions such as Murahashi-Feringa, Kumada-Corriu, Negishi, and Suzuki-Miyaura, with good to excellent yields. The devised method was employed for the synthesis of nine drug-like molecules in active pharmaceutical ingredient (API) synthesis ( Figure 26) [99].

Applications of Ferrocene-Based Diols in Hetero Diels Alder Reactions
In a completely different work, Cunningham and Guiry reported a synthetic procedure for novel library synthesis of various ferrocene-functionalized diols (94a-h) with applications in hetero Diels Alder reactions. The stereoselectivity of the prepared ligands was maintained carefully and crystallographic data of such components were reported to confirm their structure. XRD study also revealed that these ligands exhibited both intricate inter-and intramolecular hydrogen bonding, along with uncommon, bifurcated hydrogen bonding interactions (Figure 27) [99].

Applications of Ferrocene-Based Diols in Hetero Diels Alder Reactions
In a completely different work, Cunningham and Guiry reported a synthetic procedure for novel library synthesis of various ferrocene-functionalized diols (94a-h) with applications in hetero Diels Alder reactions. The stereoselectivity of the prepared ligands was maintained carefully and crystallographic data of such components were reported to confirm their structure. XRD study also revealed that these ligands exhibited both intricate inter-and intramolecular hydrogen bonding, along with uncommon, bifurcated hydrogen bonding interactions (Figure 27) [100].  Figure 26. Catalysis by ferrocene ligands bearing a bulky di-1-adamantylphosphino motif.

Applications of Ferrocene-Based Diols in Hetero Diels Alder Reactions
In a completely different work, Cunningham and Guiry reported a synthetic procedure for novel library synthesis of various ferrocene-functionalized diols (94a-h) with applications in hetero Diels Alder reactions. The stereoselectivity of the prepared ligands was maintained carefully and crystallographic data of such components were reported to confirm their structure. XRD study also revealed that these ligands exhibited both intricate inter-and intramolecular hydrogen bonding, along with uncommon, bifurcated hydrogen bonding interactions (Figure 27) [99].

Industrial Applications
Ferrocene chemistry crisscrossed discipline lines and had a significant part in organic, inorganic, biochemistry, materials science, chemical engineering, etc. These ferrocenyl compounds have recently been developed for industrial use, including in agrochemicals, additives for protective coatings to reduce rusting, fire retardants, rocket propellants, burning rate modifiers, water purification, etc.

Chromatographic Applications
A recent study reported the novel brush-like chiral immobilized stationary phase based on benzoyl-substituted N-ferrocenyl diphenyl ethyl alcohol installed on the surface of silica xerogel [101]. The newly synthesized compound (NF C BF S ) 95 was used in HPLC and the synthesis employed γ-glycidoxypropyl trimethoxysilane as a binding agent. Amazing separation among the mixture of aromatic amines, hydrocarbon, substituted phenols, isoquinolines, pyrimidines, imidazole, and other aromatic systems was observed ( Figure 28).

Industrial Applications
Ferrocene chemistry crisscrossed discipline lines and had a significant part in organic, inorganic, biochemistry, materials science, chemical engineering, etc. These ferrocenyl compounds have recently been developed for industrial use, including in agrochemicals, additives for protective coatings to reduce rusting, fire retardants, rocket propellants, burning rate modifiers, water purification, etc.

Chromatographic Applications
A recent study reported the novel brush-like chiral immobilized stationary phase based on benzoyl-substituted N-ferrocenyl diphenyl ethyl alcohol installed on the surface of silica xerogel [100]. The newly synthesized compound (NFCBFS) 95 was used in HPLC and the synthesis employed ϒ-glycidoxypropyl trimethoxysilane as a binding agent. Amazing separation among the mixture of aromatic amines, hydrocarbon, substituted phenols, isoquinolines, pyrimidines, imidazole, and other aromatic systems was observed ( Figure 28). In the same way, Wang and partners developed a non-conventional ferrocene-modified monolith that had a complex structure and was prepared through free radical elongation of vinyl ferrocene inside a stainless-steel column [101]. Proteins and other biological composites were separated by applying monolithic column chromatography. The fabricated porous structure displayed high mechanical strength, high adsorption, and low pressure. The different fractions of proteins were separated, and a highly efficient severance of small molecules was attained.

Corrosion Inhibition Potential
Novel ferrocene-graded thiourea derivatives with a smaller value of carboxymethyl starch (CMS) inhibition were reported as side-chain dependent [102]. These synthesized compounds (96a-c) were efficient corrosion inhibitors for mild carbon steel (MCS) in 1M aggressive hydrochloric acid solution, and their masking ability increased with temperature, concentration, and side-chain length ( Figure 29). Results of the degraded product of two sample solutions with or without an inhibitor in HCl solution further confirmed the corrosion inhibition potential of the synthesized compounds. In the same way, Wang and partners developed a non-conventional ferrocene-modified monolith that had a complex structure and was prepared through free radical elongation of vinyl ferrocene inside a stainless-steel column [102]. Proteins and other biological composites were separated by applying monolithic column chromatography. The fabricated porous structure displayed high mechanical strength, high adsorption, and low pressure. The different fractions of proteins were separated, and a highly efficient severance of small molecules was attained.

Corrosion Inhibition Potential
Novel ferrocene-graded thiourea derivatives with a smaller value of carboxymethyl starch (CMS) inhibition were reported as side-chain dependent [103]. These synthesized compounds (96a-c) were efficient corrosion inhibitors for mild carbon steel (MCS) in 1M aggressive hydrochloric acid solution, and their masking ability increased with temperature, concentration, and side-chain length ( Figure 29). Results of the degraded product of two sample solutions with or without an inhibitor in HCl solution further confirmed the corrosion inhibition potential of the synthesized compounds. Ferrocene-based Schiff bases (97a-c) with an extended aromatic system and a large superficial zone have been recently reported ( Figure 30). These manufactured bis-ferrocenyl Schiff bases were considered virtuous anticorrosive ingredients for aluminum AA2219-T6 alloy in 0.1 M HCl solution [103]. Further, electron-donating groups OCH3 and OC2H5 bonded to Fcub and Fcuc, consequential in advanced inhibition competence.

Water Treatment
Traditional methods of water purification by chlorine are commonly used but have serious side effects [104]. One method to resolve these problems was the development of novel eco-friendly water disinfectants based on ferrocenylamine compounds, namely, 4ferrocenylaniline (98), N-(3-bromo-2-hydroxylbenzylidene)-4-ferrocenylimine (99), and N-(3-bromo-5-chlorosalicyl)-4-ferrocenylimine (100) [103]. The antibacterial activity of these ferrocene derivatives was evaluated against twelve diverse bacterial strains by applying the micro-dilution approach (Figure 31). In vitro bacterial analysis affirmed that the ferrocenylamine species had more remarkable antibacterial activity than its precursor ferrocene and could be used to eradicate bacteria from the aqueous media. Ferrocene-based Schiff bases (97a-c) with an extended aromatic system and a large superficial zone have been recently reported ( Figure 30). These manufactured bis-ferrocenyl Schiff bases were considered virtuous anticorrosive ingredients for aluminum AA2219-T6 alloy in 0.1 M HCl solution [104]. Further, electron-donating groups OCH 3 and OC 2 H 5 bonded to Fcub and Fcuc, consequential in advanced inhibition competence. Ferrocene-based Schiff bases (97a-c) with an extended aromatic system and a large superficial zone have been recently reported ( Figure 30). These manufactured bis-ferrocenyl Schiff bases were considered virtuous anticorrosive ingredients for aluminum AA2219-T6 alloy in 0.1 M HCl solution [103]. Further, electron-donating groups OCH3 and OC2H5 bonded to Fcub and Fcuc, consequential in advanced inhibition competence.

Water Treatment
Traditional methods of water purification by chlorine are commonly used but have serious side effects [104]. One method to resolve these problems was the development of novel eco-friendly water disinfectants based on ferrocenylamine compounds, namely, 4ferrocenylaniline (98), N-(3-bromo-2-hydroxylbenzylidene)-4-ferrocenylimine (99), and N-(3-bromo-5-chlorosalicyl)-4-ferrocenylimine (100) [103]. The antibacterial activity of these ferrocene derivatives was evaluated against twelve diverse bacterial strains by applying the micro-dilution approach (Figure 31). In vitro bacterial analysis affirmed that the ferrocenylamine species had more remarkable antibacterial activity than its precursor ferrocene and could be used to eradicate bacteria from the aqueous media.

Water Treatment
Traditional methods of water purification by chlorine are commonly used but have serious side effects [105]. One method to resolve these problems was the development of novel eco-friendly water disinfectants based on ferrocenylamine compounds, namely, 4-ferrocenylaniline (98), N-(3-bromo-2-hydroxylbenzylidene)-4-ferrocenylimine (99), and N-(3-bromo-5-chlorosalicyl)-4-ferrocenylimine (100) [104]. The antibacterial activity of these ferrocene derivatives was evaluated against twelve diverse bacterial strains by applying the micro-dilution approach (Figure 31). In vitro bacterial analysis affirmed that the ferrocenylamine species had more remarkable antibacterial activity than its precursor ferrocene and could be used to eradicate bacteria from the aqueous media. Metallocene, especially ferrocene, can encapsulate organic contaminants efficiently as it has a cavity between two cyclopentadienyl rings and the Fe 2+ center, but its solubility in aqueous media is a notorious drawback. An advanced article reported the solution to this issue via the preparation of novel ferrocene-functionalized organosilica nanoparticles and investigated them for sewage water treatment ( Figure 32). The fabricated MONs manifested great absorption power for PO4 3− within the range of 729, 1299, and 835 mg −1 /g, and the adsorption capacity for Congo red and Pb 2+ was also measured and compared with reference SiO2-Fe. This comparison confirmed the strong adsorption potential of MONs, and with further modifications, these materials could be used to resolve the issue of water treatment [105]. Metallocene, especially ferrocene, can encapsulate organic contaminants efficiently as it has a cavity between two cyclopentadienyl rings and the Fe 2+ center, but its solubility in aqueous media is a notorious drawback. An advanced article reported the solution to this issue via the preparation of novel ferrocene-functionalized organosilica nanoparticles and investigated them for sewage water treatment ( Figure 32). The fabricated MONs manifested great absorption power for PO 4 3− within the range of 729, 1299, and 835 mg −1 /g, and the adsorption capacity for Congo red and Pb 2+ was also measured and compared with reference SiO 2 -Fe. This comparison confirmed the strong adsorption potential of MONs, and with further modifications, these materials could be used to resolve the issue of water treatment [106]. Yang and co-authors reported a synthesis of two permeable cross-polymers denoted as DPPF-HPP and DPPOF-HPP with excellent surface areas and comparable stoma structures of the concomitant micropores and mesopores [106]. They exhibited excellent adsorption of various colors with reported adsorption dimensions of 2280 mg g −1 and 1440 mg g −1 for Congo Red and Crystal Violet, respectively. Also, such materials exhibited no mark of degradation under repeated cycles and offered a remarkable potential for wastewater treatment (Figure 33). Yang and co-authors reported a synthesis of two permeable cross-polymers denoted as DPPF-HPP and DPPOF-HPP with excellent surface areas and comparable stoma structures of the concomitant micropores and mesopores [107]. They exhibited excellent adsorption of various colors with reported adsorption dimensions of 2280 mg g −1 and 1440 mg g −1 for Congo Red and Crystal Violet, respectively. Also, such materials exhibited no mark of degradation under repeated cycles and offered a remarkable potential for wastewater treatment (Figure 33).

Use in Rocket Propellants
The addition of Fc-based BRCs to the propellant system enhances the combustion process and lowers the pressure exponents because of their better ignitability, excellent compatibility, reversible redox behavior, and thermal stability. In this regard, new ferrocene-grafted BRCs, named 3-(ferrocenylcarbonyl) propionic acid diglycidyl ester, were synthesized and their electrochemical properties were extensively studied (Scheme 44). Fc-PADE exhibited remarkable performance in the catalytic decomposition of inorganic oxidizer ammonium perchlorate (AP) and compromising anti-locomotory potential [107]. The novel ferrocene-based epoxy compound (101) also had compatible properties for burning rate catalysis in ammonium-perchlorate-based propellant [108].

Use in Rocket Propellants
The addition of Fc-based BRCs to the propellant system enhances the combustion process and lowers the pressure exponents because of their better ignitability, excellent compatibility, reversible redox behavior, and thermal stability. In this regard, new ferrocenegrafted BRCs, named 3-(ferrocenylcarbonyl) propionic acid diglycidyl ester, were synthesized and their electrochemical properties were extensively studied (Scheme 44). Fc-PADE exhibited remarkable performance in the catalytic decomposition of inorganic oxidizer ammonium perchlorate (AP) and compromising anti-locomotory potential [108]. The novel ferrocene-based epoxy compound (101) also had compatible properties for burning rate catalysis in ammonium-perchlorate-based propellant [109]. The inclusion of ferrocene in highly branched structures enhanced the catalytic behavior of BRCs and can mitigate controlled migratory problems. Using the same concept, Wang's group reported the synthesis of ethylene-diamine-based ferrocene-terminated dendrimers (0 G, 1 G, 2 G, and 3 G) and evaluated their electrochemical properties ( Figure  34). The burning rate catalytic action of all synthesized dendrimers on the thermal breakdown of AP was inspected by TGA and differential thermogravimetry (DTG) techniques. Further anti-locomotory analysis revealed that first, second, and third generations of synthesized materials expressed upgraded anti-migration behavior in the ammonium-perchlorate-based propellant [109]. The inclusion of ferrocene in highly branched structures enhanced the catalytic behavior of BRCs and can mitigate controlled migratory problems. Using the same concept, Wang's group reported the synthesis of ethylene-diamine-based ferrocene-terminated dendrimers (0 G, 1 G, 2 G, and 3 G) and evaluated their electrochemical properties ( Figure 34). The burning rate catalytic action of all synthesized dendrimers on the thermal breakdown of AP was inspected by TGA and differential thermogravimetry (DTG) techniques. Further anti-locomotory analysis revealed that first, second, and third generations of synthesized materials expressed upgraded anti-migration behavior in the ammonium-perchlorate-based propellant [110]. The inclusion of ferrocene in highly branched structures enhanced the catalytic behavior of BRCs and can mitigate controlled migratory problems. Using the same concept, Wang's group reported the synthesis of ethylene-diamine-based ferrocene-terminated dendrimers (0 G, 1 G, 2 G, and 3 G) and evaluated their electrochemical properties ( Figure  34). The burning rate catalytic action of all synthesized dendrimers on the thermal breakdown of AP was inspected by TGA and differential thermogravimetry (DTG) techniques. Further anti-locomotory analysis revealed that first, second, and third generations of synthesized materials expressed upgraded anti-migration behavior in the ammonium-perchlorate-based propellant [109]. Cheng and co-workers blended ferrocene-grafted triazolyl compounds (Fc−TAZS) and characterized their structure through spectroscopic studies ( Figure 35). Anti-locomotion Cheng and co-workers blended ferrocene-grafted triazolyl compounds (F c− TAZ S ) and characterized their structure through spectroscopic studies ( Figure 35). Anti-locomotion and stability aspects of all F c− TAZ S were investigated, compared with catocene, and evaluated for their ignition capacity towards the thermal degradation of oxidizing agents [111]. Further, it was observed that the shear degradation potential of ammonium perchlorate could be upgraded by utilizing the triazolyl derivatives 102e, 102g, and 102k. and stability aspects of all Fc−TAZS were investigated, compared with catocene, and evaluated for their ignition capacity towards the thermal degradation of oxidizing agents [110]. Further, it was observed that the shear degradation potential of ammonium perchlorate could be upgraded by utilizing the triazolyl derivatives 102e, 102g, and 102k.

Applications in BR Catalysis
In a recent article, Keshver reported a synthesis of ferrocene-based hydroxyl-terminated polybutadiene conjugates 107(a-d) through Friedel Crafts acylation reaction and their thermal-stability-related features were studied via thermo-gravimetric experiments (Scheme 45). Various other features like viscosity iron percentage and glass transition temperature confirmed HTPB as a superb burning rate accelerator catalyst for the construction of a composite gas generator [111].

Applications in BR Catalysis
In a recent article, Keshver reported a synthesis of ferrocene-based hydroxyl-terminated polybutadiene conjugates 107(a-d) through Friedel Crafts acylation reaction and their thermalstability-related features were studied via thermo-gravimetric experiments (Scheme 45). Various other features like viscosity iron percentage and glass transition temperature confirmed HTPB as a superb burning rate accelerator catalyst for the construction of a composite gas generator [112]. and stability aspects of all Fc−TAZS were investigated, compared with catocene, and evaluated for their ignition capacity towards the thermal degradation of oxidizing agents [110]. Further, it was observed that the shear degradation potential of ammonium perchlorate could be upgraded by utilizing the triazolyl derivatives 102e, 102g, and 102k.

Applications in BR Catalysis
In a recent article, Keshver reported a synthesis of ferrocene-based hydroxyl-terminated polybutadiene conjugates 107(a-d) through Friedel Crafts acylation reaction and their thermal-stability-related features were studied via thermo-gravimetric experiments (Scheme 45). Various other features like viscosity iron percentage and glass transition temperature confirmed HTPB as a superb burning rate accelerator catalyst for the construction of a composite gas generator [111].

Use in Electrochromic Appliances
Ferrocene (Fc) is widely used as an organometallic functional group owing to its easy modification, excellent electron-donating ability, and single-electron reversible redox reaction potential. A research group performed a synthesis of ferrocene-based triphenylamine derivative (E)-N-(4-(Diphenylamino) phenyl)-formimidoyl ferrocene) (TPAFc) and carried out CV analysis that confirmed a coupling reaction between TPA units and the formation of an electroactive polymer film during successive scans (Scheme 46). These PTPAFc films displayed reversible electrochromic potential, excellent display, and quick switching response, which qualified these materials as an efficient contributor to the operation of electrochromic appliances [113].

Use in Electrochromic Appliances
Ferrocene (Fc) is widely used as an organometallic functional group owing to its easy modification, excellent electron-donating ability, and single-electron reversible redox reaction potential. A research group performed a synthesis of ferrocene-based triphenylamine derivative (E)-N-(4-(Diphenylamino) phenyl)-formimidoyl ferrocene) (TPAFc) and carried out CV analysis that confirmed a coupling reaction between TPA units and the formation of an electroactive polymer film during successive scans (Scheme 46). These PTPAFc films displayed reversible electrochromic potential, excellent display, and quick switching response, which qualified these materials as an efficient contributor to the operation of electrochromic appliances [112]. Scheme 46. Chemical structure and synthesis route of TPAFc.

Modified Voltammetric Sensors with Ferrocene
Beitollahi et al. developed modified sensor and biosensor designs. Due to ferrocene's benefits, numerous electrochemical sensors and biosensors with favorable analytical properties have been developed (Figure 36). The enhanced electrochemical sensitivity is connected to surface fouling resistance, which calls for excellent stability [113].   Figure 36). The enhanced electrochemical sensitivity is connected to surface fouling resistance, which calls for excellent stability [114].

Use in Electrochromic Appliances
Ferrocene (Fc) is widely used as an organometallic functional group owing to its easy modification, excellent electron-donating ability, and single-electron reversible redox reaction potential. A research group performed a synthesis of ferrocene-based triphenylamine derivative (E)-N-(4-(Diphenylamino) phenyl)-formimidoyl ferrocene) (TPAFc) and carried out CV analysis that confirmed a coupling reaction between TPA units and the formation of an electroactive polymer film during successive scans (Scheme 46). These PTPAFc films displayed reversible electrochromic potential, excellent display, and quick switching response, which qualified these materials as an efficient contributor to the operation of electrochromic appliances [112]. Scheme 46. Chemical structure and synthesis route of TPAFc.

Modified Voltammetric Sensors with Ferrocene
Beitollahi et al. developed modified sensor and biosensor designs. Due to ferrocene's benefits, numerous electrochemical sensors and biosensors with favorable analytical properties have been developed (Figure 36). The enhanced electrochemical sensitivity is connected to surface fouling resistance, which calls for excellent stability [113].

Application of Ferrocene in Aqueous Redox Flow Battery Suitable for High Temperatures
Using free radicals, the ferrocene monomer was successfully copolymerized with a water-soluble co-monomer. The redox potential of the ferrocene polymer (E1/2 = 0.52 V) in an aqueous environment is marginally higher than that of the low-molar-mass ferrocene derivatives previously disclosed, according to electrochemical characterization ( Figure 37). Testing on batteries showed that the polymer exhibited consistent cycling behavior through 100 cycles of charging and discharging at room temperature and 60 • C, with an average Coulombic efficiency of over 99.8% throughout all cycling trials. Investigations into the active materials' temperature stability showed that they can not only endure high temperatures with ease, but that they actually facilitate the electrochemical reactions. As a result, costly cooling solutions are no longer essential, and the environmental effects can be carefully considered [115].

Application of Ferrocene in Aqueous Redox Flow Battery Suitable for High Temperatures
Using free radicals, the ferrocene monomer was successfully copolymerized with a water-soluble co-monomer. The redox potential of the ferrocene polymer (E1/2 = 0.52 V) in an aqueous environment is marginally higher than that of the low-molar-mass ferrocene derivatives previously disclosed, according to electrochemical characterization (Figure 37). Testing on batteries showed that the polymer exhibited consistent cycling behavior through 100 cycles of charging and discharging at room temperature and 60 °C, with an average Coulombic efficiency of over 99.8% throughout all cycling trials. Investigations into the active materials' temperature stability showed that they can not only endure high temperatures with ease, but that they actually facilitate the electrochemical reactions. As a result, costly cooling solutions are no longer essential, and the environmental effects can be carefully considered [114].

Application of Ferrocene in Aqueous Redox Flow Battery Suitable for High Temperatures
Using free radicals, the ferrocene monomer was successfully copolymerized with a water-soluble co-monomer. The redox potential of the ferrocene polymer (E1/2 = 0.52 V) in an aqueous environment is marginally higher than that of the low-molar-mass ferrocene derivatives previously disclosed, according to electrochemical characterization (Figure 37). Testing on batteries showed that the polymer exhibited consistent cycling behavior through 100 cycles of charging and discharging at room temperature and 60 °C, with an average Coulombic efficiency of over 99.8% throughout all cycling trials. Investigations into the active materials' temperature stability showed that they can not only endure high temperatures with ease, but that they actually facilitate the electrochemical reactions. As a result, costly cooling solutions are no longer essential, and the environmental effects can be carefully considered [114].

Herbicide and Pesticide Safeners
In an auspicious work, ferrocene-functionalized heterocycles 108(c-h) were prepared by treating α-ferrocene alcohol with azole or sulfur nucleophiles in acid-free conditions and investigated for their plant growth regulation effect (Scheme 47). These prepared azole derivatives showed plant vegetation potential and herbicidal findings of growth modulation, and the herbicide antitoxin properties of synthesized azoles were controlled by taking maize seeds and a reference herbicide (60% metasulfuron-methyl). After a comprehensive study, these ferrocene derivatives were considered efficient plant growth activators with herbicide safeness [117].

Herbicide and Pesticide Safeners
In an auspicious work, ferrocene-functionalized heterocycles 108(c-h) were prepared by treating α-ferrocene alcohol with azole or sulfur nucleophiles in acid-free conditions and investigated for their plant growth regulation effect (Scheme 47). These prepared azole derivatives showed plant vegetation potential and herbicidal findings of growth modulation, and the herbicide antitoxin properties of synthesized azoles were controlled by taking maize seeds and a reference herbicide (60% metasulfuron-methyl). After a comprehensive study, these ferrocene derivatives were considered efficient plant growth activators with herbicide safeness [116]. Scheme 47. One-pot α-ferrocenylalkylations with α-ferrocenols.
It is worth mentioning that ferrocenes proved to be useful in evidencing the redox properties of Fe(II) adsorbed onto mineral surfaces. To give an example, an exceptional electrochemical sensor was developed based on graphitic carbon-nitride and graphene oxide nanocomposites covalently linked with a ferrocene scaffold ( Figure 39). The synthesized chemosensor exhibited a very low value of the limit of detection for Metolcarb which proved its superiority. The practical use of this sensitive material was found in many fruit and vegetable samples and attained satisfactory results with high precision [117].  It is worth mentioning that ferrocenes proved to be useful in evidencing the redox properties of Fe(II) adsorbed onto mineral surfaces. To give an example, an exceptional electrochemical sensor was developed based on graphitic carbon-nitride and graphene oxide nanocomposites covalently linked with a ferrocene scaffold ( Figure 39). The synthesized chemosensor exhibited a very low value of the limit of detection for Metolcarb which proved its superiority. The practical use of this sensitive material was found in many fruit and vegetable samples and attained satisfactory results with high precision [118].

Herbicide and Pesticide Safeners
In an auspicious work, ferrocene-functionalized heterocycles 108(c-h) were prepared by treating α-ferrocene alcohol with azole or sulfur nucleophiles in acid-free conditions and investigated for their plant growth regulation effect (Scheme 47). These prepared azole derivatives showed plant vegetation potential and herbicidal findings of growth modulation, and the herbicide antitoxin properties of synthesized azoles were controlled by taking maize seeds and a reference herbicide (60% metasulfuron-methyl). After a comprehensive study, these ferrocene derivatives were considered efficient plant growth activators with herbicide safeness [116]. Scheme 47. One-pot α-ferrocenylalkylations with α-ferrocenols.
It is worth mentioning that ferrocenes proved to be useful in evidencing the redox properties of Fe(II) adsorbed onto mineral surfaces. To give an example, an exceptional electrochemical sensor was developed based on graphitic carbon-nitride and graphene oxide nanocomposites covalently linked with a ferrocene scaffold ( Figure 39). The synthesized chemosensor exhibited a very low value of the limit of detection for Metolcarb which proved its superiority. The practical use of this sensitive material was found in many fruit and vegetable samples and attained satisfactory results with high precision [117].

Plant Growth Activators
Lewkoweski and co-workers synthesized ferrocene-appended α-amino-phosphonates separated in the form of crystals with a remarkable yield of 50-70% (Scheme 48). Toxicity assay of compound 109c was evaluated and described as less harmful for radish and oat plants while 109a exhibited activity against Vibrio fischeri. Among all derivatives, 109d displayed exceptional behavior, totally harmless to oat seedlings and thought to be the best contender for further investigation with respect to its expected application as a herbicide [119].

Plant Growth Activators
Lewkoweski and co-workers synthesized ferrocene-appended α-amino-phosphonates separated in the form of crystals with a remarkable yield of 50-70% (Scheme 48). Toxicity assay of compound 109c was evaluated and described as less harmful for radish and oat plants while 109a exhibited activity against Vibrio fischeri. Among all derivatives, 109d displayed exceptional behavior, totally harmless to oat seedlings and thought to be the best contender for further investigation with respect to its expected application as a herbicide [118].

Solid-Phase Microextraction for the Determination of Iron Organic Compounds in Seawater and Soil
In an article, direct immersion of solid-phase microextraction (DI-SPME) and gas chromatography coupled to microwave-induced plasma with atomic emission detection (GC-MIP-AED) were used for the determination of five ferrocene derivatives (1,1′-dimethylferrocene, ferrocene carboxaldehyde, acetylferrocene, ferroceneacetonitrile, and benzoylferrocene) in seawater and soil. For this purpose, commercial fibers made of attached divinylbenzene and polydimethylsiloxane with good extraction efficiency were used in the DI mode. The reported detection limits (DLs) for soil and seawater were 0.9-4 ng g −1 and 3-110 pg mL −1 , respectively ( Figure 40) [119].

Solid-Phase Microextraction for the Determination of Iron Organic Compounds in Seawater and Soil
In an article, direct immersion of solid-phase microextraction (DI-SPME) and gas chromatography coupled to microwave-induced plasma with atomic emission detection (GC-MIP-AED) were used for the determination of five ferrocene derivatives (1,1dimethylferrocene, ferrocene carboxaldehyde, acetylferrocene, ferroceneacetonitrile, and benzoylferrocene) in seawater and soil. For this purpose, commercial fibers made of attached divinylbenzene and polydimethylsiloxane with good extraction efficiency were used in the DI mode. The reported detection limits (DLs) for soil and seawater were 0.9-4 ng g −1 and 3-110 pg mL −1 , respectively ( Figure 40) [120].

Plant Growth Activators
Lewkoweski and co-workers synthesized ferrocene-appended α-amino-phosphonates separated in the form of crystals with a remarkable yield of 50-70% (Scheme 48). Toxicity assay of compound 109c was evaluated and described as less harmful for radish and oat plants while 109a exhibited activity against Vibrio fischeri. Among all derivatives, 109d displayed exceptional behavior, totally harmless to oat seedlings and thought to be the best contender for further investigation with respect to its expected application as a herbicide [118].

Solid-Phase Microextraction for the Determination of Iron Organic Compounds in Seawater and Soil
In an article, direct immersion of solid-phase microextraction (DI-SPME) and gas chromatography coupled to microwave-induced plasma with atomic emission detection (GC-MIP-AED) were used for the determination of five ferrocene derivatives (1,1′-dimethylferrocene, ferrocene carboxaldehyde, acetylferrocene, ferroceneacetonitrile, and benzoylferrocene) in seawater and soil. For this purpose, commercial fibers made of attached divinylbenzene and polydimethylsiloxane with good extraction efficiency were used in the DI mode. The reported detection limits (DLs) for soil and seawater were 0.9-4 ng g −1 and 3-110 pg mL −1 , respectively ( Figure 40) [119].

A Probe-Free Electrochemical Immunosensor for Methyl Jasmonate
Methyl jasmonate, an endogenous plant hormone that is crucial to the creation of food, was identified by a unique probeless electrochemical immunosensor accomplished by Xing and coworkers. The procedure includes the attachment of ferrocene with carboxylated graphene (COOH-GR) and multi-walled carbon nanotubes (COOH-MWNT) to produce a composite that was further processed to afford screen-printed electrodes (SPE). The conductivity and catalytic activity of the sensor were enhanced by the application of COOH-GR and COOH-MWNT while keeping the MeJA antibody fixed. As a result, MeJA can be detected using the immunosensor without the use of an external redox probe solution with a very low detection limit, such as 31.26 fM (Figure 41) [121].

A Probe-Free Electrochemical Immunosensor for Methyl Jasmonate
Methyl jasmonate, an endogenous plant hormone that is crucial to the creation of food, was identified by a unique probeless electrochemical immunosensor accomplished by Xing and coworkers. The procedure includes the attachment of ferrocene with carboxylated graphene (COOH-GR) and multi-walled carbon nanotubes (COOH-MWNT) to produce a composite that was further processed to afford screen-printed electrodes (SPE). The conductivity and catalytic activity of the sensor were enhanced by the application of COOH-GR and COOH-MWNT while keeping the MeJA antibody fixed. As a result, MeJA can be detected using the immunosensor without the use of an external redox probe solution with a very low detection limit, such as 31.26 fM (Figure 41) [120].

Ferrocene-Containing Nitrogen Fertilizers
A recent survey reported liquid nitrogen fertilizers containing some derivatives of ferrocene, detailing their use, importance in agriculture, and spectral analysis. Experimental studies revealed that cotton and wheat have better retention of yield elements than control when applying a new Ferben-potassium nitrogen liquid fertilizer during the application period. The final result reported a surge in the yield of cotton by 5-6 ts/ha and wheat by 10-16 ts/ha, indicating high economic efficiency (Scheme 49) [121].

Ferrocene-Containing Nitrogen Fertilizers
A recent survey reported liquid nitrogen fertilizers containing some derivatives of ferrocene, detailing their use, importance in agriculture, and spectral analysis. Experimental studies revealed that cotton and wheat have better retention of yield elements than control when applying a new Ferben-potassium nitrogen liquid fertilizer during the application period. The final result reported a surge in the yield of cotton by 5-6 ts/ha and wheat by 10-16 ts/ha, indicating high economic efficiency (Scheme 49) [122].

Biological Applications
Biochemical uses of ferrocene derivatives are typified by a wealth of contributions In advanced research, Jolly and group members reported the progress of a vastly pene trating double-mode electrochemical podium for the recognition of microRNAs, which was a significant tool in gene expression activity. The platform was industrialized by con suming peptide nucleic acids as probes on gold electrode surfaces to capture target miR NAs, and thiolated ferrocene offered a harmonizing detection approach by elevating miRNA concentration (Figure 42) [122]. The electrochemical platform could also be read ily extended to other miRNA/DNA detection along with the preparation of microarray platforms.  ' 3 ' 3 ' 5 ' 5 '

Biological Applications
Biochemical uses of ferrocene derivatives are typified by a wealth of contributions. In advanced research, Jolly and group members reported the progress of a vastly penetrating double-mode electrochemical podium for the recognition of microRNAs, which was a significant tool in gene expression activity. The platform was industrialized by consuming peptide nucleic acids as probes on gold electrode surfaces to capture target miRNAs, and thiolated ferrocene offered a harmonizing detection approach by elevating miRNA concentration ( Figure 42) [123]. The electrochemical platform could also be readily extended to other miRNA/DNA detection along with the preparation of microarray platforms.

Biological Applications
Biochemical uses of ferrocene derivatives are typified by a wealth of contributions. In advanced research, Jolly and group members reported the progress of a vastly penetrating double-mode electrochemical podium for the recognition of microRNAs, which was a significant tool in gene expression activity. The platform was industrialized by consuming peptide nucleic acids as probes on gold electrode surfaces to capture target miR-NAs, and thiolated ferrocene offered a harmonizing detection approach by elevating miRNA concentration ( Figure 42) [122]. The electrochemical platform could also be readily extended to other miRNA/DNA detection along with the preparation of microarray platforms.  ' 3 ' 3 ' 5 ' 5 '   Another handy piece of work described the fabrication protocol of a trifle electrochemical immunosensor for the hypersensitive identification of the Avian Leukosis virus subgroup (Alv-J) using β-cyclodextrin, gold nanoparticles, and ferrocene group host-guest composite as marked and GR-PTCA provide the sensor surface ( Figure 43). Impairment of composite material directly onto the surface of the secondary antibody (ab 2 ) confirmed its powerful binding affinity to the host. Moreover, it was reported that the immunosensor had higher receptiveness, remarkable reliability, and reusability, recommended for the computable diagnosis of ALv-5 during clinical trials [124].
Molecules 2023, 28, 5765 57 of 78 Another handy piece of work described the fabrication protocol of a trifle electrochemical immunosensor for the hypersensitive identification of the Avian Leukosis virus subgroup (Alv-J) using β-cyclodextrin, gold nanoparticles, and ferrocene group hostguest composite as marked and GR-PTCA provide the sensor surface ( Figure 43). Impairment of composite material directly onto the surface of the secondary antibody (ab2) confirmed its powerful binding affinity to the host. Moreover, it was reported that the immunosensor had higher receptiveness, remarkable reliability, and reusability, recommended for the computable diagnosis of ALv-5 during clinical trials [123]. The DNA-drug complex has attracted great attention recently and the linkage of ferrocene-functionalized drugs with nucleic acids seems to be a "cherry on the top" in the field of medicinal chemistry. In a comprehensive study, a synthetic protocol for the synthesis of a new guanine-rich DNA ligand based on naphthalene diimide (NDI) linked with ferrocene was reported, and the redox potential was analyzed using guanine-rich DNAimmobilized gold electrodes [124]. The redox activity of these ligands was evaluated, and the electrode surface was modified for DNA binding. Moreover, CV analysis described greater selectivity of 111 and 113 for G-quadruplex and realized the anticancer activity of these compounds with a low value of cytotoxicity for normal cells (Figure 44). The DNA-drug complex has attracted great attention recently and the linkage of ferrocene-functionalized drugs with nucleic acids seems to be a "cherry on the top" in the field of medicinal chemistry. In a comprehensive study, a synthetic protocol for the synthesis of a new guanine-rich DNA ligand based on naphthalene diimide (NDI) linked with ferrocene was reported, and the redox potential was analyzed using guanine-rich DNA-immobilized gold electrodes [125]. The redox activity of these ligands was evaluated, and the electrode surface was modified for DNA binding. Moreover, CV analysis described greater selectivity of 111 and 113 for G-quadruplex and realized the anticancer activity of these compounds with a low value of cytotoxicity for normal cells (Figure 44).
In a different work, Jia's group synthesized three ferrocene-based naphthalimides and evaluated their attaching abilities with DNA using ethidium bromide displacement techniques [126]. Among all derivatives, 115 exhibited the highest binding potential for DNA strands with remarkable activity against four different human cancerous cells, evaluated by cytotoxicity tests. The synchronizing potential of the ferrocene nucleus was responsible for the upgradation of cytotoxicity that was linked to the damaged DNA of the cancer cell ( Figure 45).
An array of ferrocenyl chalcones was investigated for their binding affinities with calf thymus DNA and bovine serum albumin, inspected by UV-visible, circular dichroism, and phosphorescence spectroscopy [127]. Likewise, topoisomerase retardation analysis was applied to suppress the action of topoisomerases I and II in humans, and a positive response was observed in a concentration-dependent mode. Further, the interaction between BSA and the five selected ligands (116)(117)(118)(119)(120) was analyzed by fluorescence quenching spectroscopy ( Figure 46). In a different work, Jia's group synthesized three ferrocene-based naphthalimides and evaluated their attaching abilities with DNA using ethidium bromide displacement techniques [125]. Among all derivatives, 115 exhibited the highest binding potential for DNA strands with remarkable activity against four different human cancerous cells, evaluated by cytotoxicity tests. The synchronizing potential of the ferrocene nucleus was responsible for the upgradation of cytotoxicity that was linked to the damaged DNA of the cancer cell ( Figure 45). An array of ferrocenyl chalcones was investigated for their binding affinities with calf thymus DNA and bovine serum albumin, inspected by UV-visible, circular dichroism, and phosphorescence spectroscopy [126]. Likewise, topoisomerase retardation analysis was applied to suppress the action of topoisomerases I and II in humans, and a positive response was observed in a concentration-dependent mode. Further, the interaction between BSA and the five selected ligands (116)(117)(118)(119)(120) was analyzed by fluorescence quenching spectroscopy (Figure 46). In a different work, Jia's group synthesized three ferrocene-based naphthalimides and evaluated their attaching abilities with DNA using ethidium bromide displacement techniques [125]. Among all derivatives, 115 exhibited the highest binding potential for DNA strands with remarkable activity against four different human cancerous cells, evaluated by cytotoxicity tests. The synchronizing potential of the ferrocene nucleus was responsible for the upgradation of cytotoxicity that was linked to the damaged DNA of the cancer cell ( Figure 45). An array of ferrocenyl chalcones was investigated for their binding affinities with calf thymus DNA and bovine serum albumin, inspected by UV-visible, circular dichroism, and phosphorescence spectroscopy [126]. Likewise, topoisomerase retardation analysis was applied to suppress the action of topoisomerases I and II in humans, and a positive response was observed in a concentration-dependent mode. Further, the interaction between BSA and the five selected ligands (116)(117)(118)(119)(120) was analyzed by fluorescence quenching spectroscopy (Figure 46). Ferrocene derivatives have quickly received significant interest in drug delivery research due to their unique structure, redox character, and hydrophobicity, as they could be transformed into a hydrophilic ferrocenium cation in the presence of a mild oxidizing Ferrocene derivatives have quickly received significant interest in drug delivery research due to their unique structure, redox character, and hydrophobicity, as they could be transformed into a hydrophilic ferrocenium cation in the presence of a mild oxidizing agent [128]. In this regard, a significant effort was made to design hydrophilic ferrocene tetradecyl units to build up cationic micelles through self-assembly, and the detailed mechanism is described in Figure 47. Micelles were then converted with hyaluronic acid to obtain the HA-Fe-C 14 complex. These micelles were used for the delivery of Adriamycin drugs, released under a higher GHS environment. The synthesized micelles were concentrated inside tumor cells and revealed highly efficient antitumor potential in both primary and secondary biological screening tests [129]. Ferrocene derivatives have quickly received significant interest in drug delivery research due to their unique structure, redox character, and hydrophobicity, as they could be transformed into a hydrophilic ferrocenium cation in the presence of a mild oxidizing agent [127]. In this regard, a significant effort was made to design hydrophilic ferrocene tetradecyl units to build up cationic micelles through self-assembly, and the detailed mechanism is described in Figure 47. Micelles were then converted with hyaluronic acid to obtain the HA-Fe-C14 complex. These micelles were used for the delivery of Adriamycin drugs, released under a higher GHS environment. The synthesized micelles were concentrated inside tumor cells and revealed highly efficient antitumor potential in both primary and secondary biological screening tests [128].  Recently, poly-functionalized chiral spiropyrazoline-ferrocene hybrids were synthesized through asymmetric organic catalysis and screened for their RalA inhibition potential (Scheme 50) [130]. Among all synthesized compounds, 123a exhibited powerful RalA inhibition and led to the accretion of RSO and passive spread of pancreatic cancer cells via tempted mitochondrial damage and apoptosis in pancreatic tumor cells. This was a competent application of asymmetric organic catalysis in organometallic bio-organometallic chemistry.
Recently, poly-functionalized chiral spiropyrazoline-ferrocene hybrids were synthesized through asymmetric organic catalysis and screened for their RalA inhibition potential (Scheme 50) [129]. Among all synthesized compounds, 123a exhibited powerful RalA inhibition and led to the accretion of RSO and passive spread of pancreatic cancer cells via tempted mitochondrial damage and apoptosis in pancreatic tumor cells. This was a competent application of asymmetric organic catalysis in organometallic bio-organometallic chemistry. Scheme 50. Asymmetric synthesis of chiral spirocyclic pyrazolone ferrocene hybrids.

Medicinal Applications
Organometallic compounds like ferrocene have unique properties like low toxicity, low oxidizing potential, water and air stability, and electrochemical aspects that allow them to have wide applications in medicinal chemistry. Nowadays, ferrocene derivatives have found their way into pharmacology as potent HIV, anti-cancer, anti-trypanosomal, antimalarial, anti-diabetic, and antiviral agents, among others. These potent ferrocenebased drugs were either prepared through organic synthesis or developed from alreadyrecommended drugs via drug reprofiling or repurposing strategies in which the structural variation of established drugs with ferrocene scaffolds was reported [130,131].

Anticancer Activity
Ferrocene derivatives have been reported to display anti-proliferative activity against several tumor cell lines with less toxic effects in comparison to known anticancer drugs. Since 1970, several types of ferrocenyl compounds were synthesized and subjected to anticancer studies because of their remarkable electrochemical properties and lower toxicity. Ahmad et al. carried out the synthesis of four newly modified Mannich bases of Lawsone that accommodated the Ferrocene units. Lawsone contains a naphthoquinone nucleus whose drug properties were already reported [132]. The biological study showed that compound 124a is the most active member among a series of four compounds that had maximum antiproliferative activity and it could be a promising lead for the development of ligands that could be used for the treatment of hormone-refractory prostate carcinomas and MDR tumors ( Figure 48). Scheme 50. Asymmetric synthesis of chiral spirocyclic pyrazolone ferrocene hybrids.

Medicinal Applications
Organometallic compounds like ferrocene have unique properties like low toxicity, low oxidizing potential, water and air stability, and electrochemical aspects that allow them to have wide applications in medicinal chemistry. Nowadays, ferrocene derivatives have found their way into pharmacology as potent HIV, anti-cancer, anti-trypanosomal, antimalarial, anti-diabetic, and antiviral agents, among others. These potent ferrocenebased drugs were either prepared through organic synthesis or developed from alreadyrecommended drugs via drug reprofiling or repurposing strategies in which the structural variation of established drugs with ferrocene scaffolds was reported [131,132].

Anticancer Activity
Ferrocene derivatives have been reported to display anti-proliferative activity against several tumor cell lines with less toxic effects in comparison to known anticancer drugs. Since 1970, several types of ferrocenyl compounds were synthesized and subjected to anticancer studies because of their remarkable electrochemical properties and lower toxicity. Ahmad et al. carried out the synthesis of four newly modified Mannich bases of Lawsone that accommodated the Ferrocene units. Lawsone contains a naphthoquinone nucleus whose drug properties were already reported [133]. The biological study showed that compound 124a is the most active member among a series of four compounds that had maximum antiproliferative activity and it could be a promising lead for the development of ligands that could be used for the treatment of hormone-refractory prostate carcinomas and MDR tumors ( Figure 48).
Sonia and Martina synthesized ferrocenyl conjugates of clotrimazole by replacing one of the aryl rings with ferrocene in the triphenylmethane system ( Figure 50). Biological screening tests of these derivatives on two different human prostate cells were carried out and compared with the parent drug that exhibited a twofold increment in the cytotoxicity of these ferrocenyl conjugates on HT29 colorectal carcinoma cells. Moreover, commensurable activity was shown against MCF-7 breast cancer cells [135]. Numerous ferrocene conjugates, including the new N-(p-chlorophenyl)-carboxamido ferrocene (125)(126)(127)(128)(129)(130)(131), were synthesized and their antitumor activity was explored in detail [133]. Among these ligands, 126 and 128 with benzimidazole mainstay were potent against HeLa cells, attaining IC50 values of ~5 µM and ~6 µM, respectively. Complex 130, also bearing a benzimidazole support, presented somewhat higher values (~11 µM). These complex mechanisms were thought to be related to a more operative cytotoxic potential ( Figure 49). Sonia and Martina synthesized ferrocenyl conjugates of clotrimazole by replacing one of the aryl rings with ferrocene in the triphenylmethane system ( Figure 50). Biological screening tests of these derivatives on two different human prostate cells were carried out and compared with the parent drug that exhibited a twofold increment in the cytotoxicity of these ferrocenyl conjugates on HT29 colorectal carcinoma cells. Moreover, commensurable activity was shown against MCF-7 breast cancer cells [134]. Numerous ferrocene conjugates, including the new N-(p-chlorophenyl)-carboxamido ferrocene (125)(126)(127)(128)(129)(130)(131), were synthesized and their antitumor activity was explored in detail [133]. Among these ligands, 126 and 128 with benzimidazole mainstay were potent against HeLa cells, attaining IC50 values of ~5 µM and ~6 µM, respectively. Complex 130, also bearing a benzimidazole support, presented somewhat higher values (~11 µM). These complex mechanisms were thought to be related to a more operative cytotoxic potential ( Figure 49). Sonia and Martina synthesized ferrocenyl conjugates of clotrimazole by replacing one of the aryl rings with ferrocene in the triphenylmethane system ( Figure 50). Biological screening tests of these derivatives on two different human prostate cells were carried out and compared with the parent drug that exhibited a twofold increment in the cytotoxicity of these ferrocenyl conjugates on HT29 colorectal carcinoma cells. Moreover, commensurable activity was shown against MCF-7 breast cancer cells [134]. In an advanced work, unique nitric oxide accommodating pyrazole-ferrocene conjugates were synthesized and reported as COX-2 suppressors [135]. Bioassay analysis of the synthesized compound confirmed the potency of 134 which was the highest among all the synthesized compounds (Scheme 51) and had the maximum anti-propagative capacity In an advanced work, unique nitric oxide accommodating pyrazole-ferrocene conjugates were synthesized and reported as COX-2 suppressors [136]. Bioassay analysis of the synthesized compound confirmed the potency of 134 which was the highest among all the synthesized compounds (Scheme 51) and had the maximum anti-propagative capacity and could be destroyed by depolarization of the cell's powerhouse, and discharge took place not inside HeLa cells. This phenomenon was harmonized with the antiproliferative potential for 134 which is thought to be a suitable drug for cancer therapy. In an advanced work, unique nitric oxide accommodating pyrazole-ferrocene conjugates were synthesized and reported as COX-2 suppressors [135]. Bioassay analysis of the synthesized compound confirmed the potency of 134 which was the highest among all the synthesized compounds (Scheme 51) and had the maximum anti-propagative capacity and could be destroyed by depolarization of the cell's powerhouse, and discharge took place not inside HeLa cells. This phenomenon was harmonized with the antiproliferative potential for 134 which is thought to be a suitable drug for cancer therapy. Scheme 51. Synthesis of nitric-oxide-bearing pyrazole-ferrocene conjugate.
Ferrocene and furan derivatives have long been known to be some of the most biologically active compounds [136,137]. Herein, five furoylferrocene analogs were prepared through EAS reaction using AlCl3-EtAlCl2 Lewis acids (Scheme 52). Though toxicity is directly linked to concentration, at a 100 mg/mL concentration, the protection of cell viability was observed to be 70%. For compounds 135-139, the necrotic effects were found to be between 21% and 39% at a 50 mg/mL concentration [138]. Ferrocene and furan derivatives have long been known to be some of the most biologically active compounds [137,138]. Herein, five furoylferrocene analogs were prepared through EAS reaction using AlCl 3 -EtAlCl 2 Lewis acids (Scheme 52). Though toxicity is directly linked to concentration, at a 100 mg/mL concentration, the protection of cell viability was observed to be 70%. For compounds 135-139, the necrotic effects were found to be between 21% and 39% at a 50 mg/mL concentration [139]. Combinatorial synthesis of ferrocene-linked amides was performed by Sansook and co-workers through an amide coupling reaction (Scheme 53). Three final ferrocene-grafted conjugates were characterized in the solid form by X-ray crystallography and exhibited hydrogen bonding as found in NH---C=O N-methylation of the amide, which was used to Scheme 52. AlCl 3 -EtAlCl 2 -catalyzed ferrocenyl furan derivative synthesis.
Combinatorial synthesis of ferrocene-linked amides was performed by Sansook and co-workers through an amide coupling reaction (Scheme 53). Three final ferrocene-grafted conjugates were characterized in the solid form by X-ray crystallography and exhibited hydrogen bonding as found in NH---C=O N-methylation of the amide, which was used to carry out a pharmacophore identification study. These synthesized ligands are realized as effective-cannabinoid receptor (CB 1 , and CB 2 ) agonists, representing single-digit nanomolar potency [140]. Scheme 52. AlCl3-EtAlCl2-catalyzed ferrocenyl furan derivative synthesis.
Combinatorial synthesis of ferrocene-linked amides was performed by Sansook and co-workers through an amide coupling reaction (Scheme 53). Three final ferrocene-grafted conjugates were characterized in the solid form by X-ray crystallography and exhibited hydrogen bonding as found in NH---C=O N-methylation of the amide, which was used to carry out a pharmacophore identification study. These synthesized ligands are realized as effective-cannabinoid receptor (CB1, and CB2) agonists, representing single-digit nanomolar potency [139]. Realizing the anticancer potential of quinoline scaffolds, Maracic and colleagues synthesized novel O-substituted and N-substituted 4-quinoline conjugates having ferrocene scaffolds [140]. In vitro analysis exhibited that the N-substituted compound displayed cytostatic activity on selective cancerous cells. Among all N-alkylated derivatives, 145 showed remarkable activity against acute leukemia in blast crisis, whereas 146c realized a selective inhibitory effect on Raji cells without harming the normal cell ( Figure 51). Realizing the anticancer potential of quinoline scaffolds, Maracic and colleagues synthesized novel O-substituted and N-substituted 4-quinoline conjugates having ferrocene scaffolds [141]. In vitro analysis exhibited that the N-substituted compound displayed cytostatic activity on selective cancerous cells. Among all N-alkylated derivatives, 145 showed remarkable activity against acute leukemia in blast crisis, whereas 146c realized a selective inhibitory effect on Raji cells without harming the normal cell ( Figure 51). In a different work, a group of Wei and coworkers synthesized a series of seven Ferrocene-based coumarin conjugates and performed their biological screening, with the conclusion that FcL1 and FcL5 showed excellent anticancer potential due to the small value of formal potential E°, and the latter exhibited promising activity against SGC line cells [141]. Exceptionally, FcL4 displayed well-marked cytotoxicity against cancer cells with an IC50 value of 1.09 µmol·L −1 , comparable to Adriamycin (Scheme 54). In a different work, a group of Wei and coworkers synthesized a series of seven Ferrocene-based coumarin conjugates and performed their biological screening, with the conclusion that FcL 1 and FcL 5 showed excellent anticancer potential due to the small value of formal potential E • , and the latter exhibited promising activity against SGC line cells [142]. Exceptionally, FcL 4 displayed well-marked cytotoxicity against cancer cells with an IC 50 value of 1.09 µmol·L −1 , comparable to Adriamycin (Scheme 54). In a different work, a group of Wei and coworkers synthesized a series of seven Ferrocene-based coumarin conjugates and performed their biological screening, with the conclusion that FcL1 and FcL5 showed excellent anticancer potential due to the small value of formal potential E°, and the latter exhibited promising activity against SGC line cells [141]. Exceptionally, FcL4 displayed well-marked cytotoxicity against cancer cells with an IC50 value of 1.09 µmol·L −1 , comparable to Adriamycin (Scheme 54). Scheme 54. Synthesis of ferrocenyl-substituted coumarin derivatives.

Antimalarial Agents
Polymeric conjugates, introduced by Ringsdorf, have several benefits over non-polymeric agents due to their high molecular mass and drug release can be delayed, therefore improving drug bioavailability and thus allowing the administration of smaller doses over larger intervals of time. Using the same concept, Mukaya synthesized two groups of polymeric co-conjugates, one bearing ferrocene and the other containing a neridrote moiety, and evaluated their antimalarial activity by secondary bioassay analysis [142]. Among the two groups of drugs, ferrocene-grafted derivatives proved active against a chloroquine-resistant strain of malarial agent, and especially 148e, along with its co-conjugate, Scheme 54. Synthesis of ferrocenyl-substituted coumarin derivatives.

Antimalarial Agents
Polymeric conjugates, introduced by Ringsdorf, have several benefits over nonpolymeric agents due to their high molecular mass and drug release can be delayed, therefore improving drug bioavailability and thus allowing the administration of smaller doses over larger intervals of time. Using the same concept, Mukaya synthesized two groups of polymeric co-conjugates, one bearing ferrocene and the other containing a neridrote moiety, and evaluated their antimalarial activity by secondary bioassay analysis [143]. Among the two groups of drugs, ferrocene-grafted derivatives proved active against a chloroquine-resistant strain of malarial agent, and especially 148e, along with its co-conjugate, expressed outstanding antimalarial activity. Blood component analysis revealed the selectiveness of these compounds for erythrocytic parasites without harming the host's red blood cells ( Figure 52).  Several drugs have been repurposed through ferrocene inclusion, and the most outstanding compound reported so far is ferro-chloroquine, with notable in vitro antimalarial activity against CQ-resistant plasmodium falciparum strains. Recently, a research group reported the synthesis of an unusual ferrocene-functionalized artemisinin ligand through Several drugs have been repurposed through ferrocene inclusion, and the most outstanding compound reported so far is ferro-chloroquine, with notable in vitro antimalarial activity against CQ-resistant plasmodium falciparum strains. Recently, a research group reported the synthesis of an unusual ferrocene-functionalized artemisinin ligand through a piperazine bridge and subjected it to biological screening tests on chloroquine cognizant (NF54) and chloroquine refractory strains of the malarial causative agents [144]. Cytotoxicity tests were carried out on fetus kidney cells and they concluded that amino artemisinin derivatives with a ferrocene scaffold exhibited differential activity towards malarial parasites in the company of normal cells (Figure 53). Several drugs have been repurposed through ferrocene inclusion, and the most outstanding compound reported so far is ferro-chloroquine, with notable in vitro antimalarial activity against CQ-resistant plasmodium falciparum strains. Recently, a research group reported the synthesis of an unusual ferrocene-functionalized artemisinin ligand through a piperazine bridge and subjected it to biological screening tests on chloroquine cognizant (NF54) and chloroquine refractory strains of the malarial causative agents [143]. Cytotoxicity tests were carried out on fetus kidney cells and they concluded that amino artemisinin derivatives with a ferrocene scaffold exhibited differential activity towards malarial parasites in the company of normal cells (Figure 53).  An array of advanced cathomycin conjugates was contrived with compromising product amounts by Mbaba and co-authors [145]. Primary biological screening analysis confirmed the antimalarial activity of the target compound 152 towards the falciparum pathogen. It was observed that the ferrocene scaffold elevated the potency of novobiocin derivatives against plasmodium strains. Moreover, a secondary bioassay proved the inhibition face behavior of these conjugates for heat shock proteins Hsp90 ( Figure 54). An array of advanced cathomycin conjugates was contrived with compromising product amounts by Mbaba and co-authors [144]. Primary biological screening analysis confirmed the antimalarial activity of the target compound 152 towards the falciparum pathogen. It was observed that the ferrocene scaffold elevated the potency of novobiocin derivatives against plasmodium strains. Moreover, a secondary bioassay proved the inhibition face behavior of these conjugates for heat shock proteins Hsp90 ( Figure 54). Synthesis of three groups of new quinoline-based ferrocenyl conjugates through an easy and effective study was performed by Minic's group, and they evaluated their antimalarial activity through a secondary bioassay [145]. It was realized that all three derivatives showed little micro-molar potential towards the chloroquine-effective strain of P. falciparum, whereas 154 and 155 also expressed their sub-molecular activity towards the chloroquine-ineffective strain of P. falciparum, making them leads for future malarial investigation studies (Figure 55). Synthesis of three groups of new quinoline-based ferrocenyl conjugates through an easy and effective study was performed by Minic's group, and they evaluated their antimalarial activity through a secondary bioassay [146]. It was realized that all three derivatives showed little micro-molar potential towards the chloroquine-effective strain of P. falciparum, whereas 154 and 155 also expressed their sub-molecular activity towards the chloroquine-ineffective strain of P. falciparum, making them leads for future malarial investigation studies (Figure 55). Synthesis of three groups of new quinoline-based ferrocenyl conjugates through an easy and effective study was performed by Minic's group, and they evaluated their antimalarial activity through a secondary bioassay [145]. It was realized that all three derivatives showed little micro-molar potential towards the chloroquine-effective strain of P. falciparum, whereas 154 and 155 also expressed their sub-molecular activity towards the chloroquine-ineffective strain of P. falciparum, making them leads for future malarial investigation studies (Figure 55).

Antioxidant Activity
Ferrocene and adamantane are chemically very different but are quite similar in size and hydrophobicity, and the results obtained in these studies open wide possibilities for applications of adamantly ferrocene derivatives. In an article, Stimac and colleagues synthesized and reported the antioxidant potential of ferrocene derivatives through the DPPH free radical scavenging method [146]. The percentage of DPPH quenching in the presence of Fc-COOH and all prepared compounds was measured and shown in a graph exposing that monosubstituted compounds 156 and 158 exhibited better antioxidant potential than disubstituted compounds 157 and 159 ( Figure 56). Further, an IC50 value of 159 was the minimum among all synthesized ligands, which further confirmed its antioxidant potential.

Antioxidant Activity
Ferrocene and adamantane are chemically very different but are quite similar in size and hydrophobicity, and the results obtained in these studies open wide possibilities for applications of adamantly ferrocene derivatives. In an article, Stimac and colleagues synthesized and reported the antioxidant potential of ferrocene derivatives through the DPPH free radical scavenging method [147]. The percentage of DPPH quenching in the presence of Fc-COOH and all prepared compounds was measured and shown in a graph exposing that monosubstituted compounds 156 and 158 exhibited better antioxidant potential than disubstituted compounds 157 and 159 ( Figure 56). Further, an IC 50 value of 159 was the minimum among all synthesized ligands, which further confirmed its antioxidant potential. The group of Bano and Khan recently conducted a detailed study of ferrocenegrafted acyl urea derivatives and homoleptic carboxylates through in silico and in vivo analysis and evaluated their antidiabetic potential [147]. All examined scaffolds showed

Antidiabetic Agents
The group of Bano and Khan recently conducted a detailed study of ferrocene-grafted acyl urea derivatives and homoleptic carboxylates through in silico and in vivo analysis and evaluated their antidiabetic potential [148]. All examined scaffolds showed large binding interactions for target sites, including receptors and enzymes, i.e., aldose reductase, glucokinase, Cα glycosides, etc. In vivo analysis of these compounds on alloxan-coaxed mice confirmed that DPC1 (160) and DPAA (161) decreased the blood glucose level of the host body mass and dose-dependently (mg/kg) reduced the level of glycosylated hemoglobin in the diabetic host ( Figure 57).

Antidiabetic Agents
The group of Bano and Khan recently conducted a detailed study of ferrocenegrafted acyl urea derivatives and homoleptic carboxylates through in silico and in vivo analysis and evaluated their antidiabetic potential [147]. All examined scaffolds showed large binding interactions for target sites, including receptors and enzymes, i.e., aldose reductase, glucokinase, Cα glycosides, etc. In vivo analysis of these compounds on alloxan-coaxed mice confirmed that DPC1 (160) and DPAA (161) decreased the blood glucose level of the host body mass and dose-dependently (mg/kg) reduced the level of glycosylated hemoglobin in the diabetic host ( Figure 57).

Ferrocene-Grafted Anti-Trypanosomal Agents
In another interesting example of drug repurposing, Mbaba and assistants developed novel ferrocene 1,3-benzoxazine conjugates by applying a drug reprofiling strategy and carried out their biology screening tests to confirm their anti-trypanosomal activity [149]. The remarkable medicinal potential of these compounds was observed against T. Bruceiinfected strains with an IC 50 value of 0.15-38.6 µM. Moreover, compound 163c showed maximum efficacy due to the side-chain CH 2 NMC 2 O 4 , and a 20-fold rise in the potency of the reprofiled drug was observed ( Figure 58). In another interesting example of drug repurposing, Mbaba and assistants developed novel ferrocene 1,3-benzoxazine conjugates by applying a drug reprofiling strategy and carried out their biology screening tests to confirm their anti-trypanosomal activity [148]. The remarkable medicinal potential of these compounds was observed against T. Bruceiinfected strains with an IC50 value of 0.15-38.6 µM. Moreover, compound 163c showed maximum efficacy due to the side-chain CH2NMC2O4, and a 20-fold rise in the potency of the reprofiled drug was observed ( Figure 58). Using a different protocol, Paucar and co-researchers developed new ferrocenyl Mannich bases and carried out artificial insemination tests to check out their inhibitory potential toward sleep sickness parasites [149]. Compound 164 showed superior suppressing capacity among all conjugates and the calculated IC50 value was also high, reach- Using a different protocol, Paucar and co-researchers developed new ferrocenyl Mannich bases and carried out artificial insemination tests to check out their inhibitory potential toward sleep sickness parasites [150]. Compound 164 showed superior suppressing capacity among all conjugates and the calculated IC 50 value was also high, reaching the maximum for the Arequipa strain. Further, this compound also minimized many damaged cells through a genotoxic phenomenon. In the end, molecular docking was also performed to find the binding capacities of the examined compound with Fe-SoD enzymes ( Figure 59). Using a different protocol, Paucar and co-researchers developed new ferrocenyl Mannich bases and carried out artificial insemination tests to check out their inhibitory potential toward sleep sickness parasites [149]. Compound 164 showed superior suppressing capacity among all conjugates and the calculated IC50 value was also high, reaching the maximum for the Arequipa strain. Further, this compound also minimized many damaged cells through a genotoxic phenomenon. In the end, molecular docking was also performed to find the binding capacities of the examined compound with Fe-SoD enzymes ( Figure 59). 3.6.6. Antimicrobial Agent Antimicrobial agents have been effectively applied to treat patients with microorganism diseases, but the major problem is that their causative agents have become immune to these drugs. Many drugs that are based on metallocene, especially ferrocene, possess modified pharmacological and toxicological characteristics compared to their original characteristics when administered as metal-based compounds.
Parveen et al. explored the synthesis of new pyrazoline-appended ferrocenyl quinoline compounds 165a-f and checked out their antimicrobial potential [151]. Fifteen bacterial and fungal strains were exposed to these derivatives via the Broth micro-dilution method, and the compounds exhibited extraordinary MIC values against the examined stains. Among all samples, ligands 165d exhibited remarkable antimicrobial activity by measuring MIC value within the range of 8-32 Hg/mol. These organometallic compounds could be used as part of a two-in-one strategy to synthesize potential antimicrobials ( Figure 60). 3.6.6. Antimicrobial Agent Antimicrobial agents have been effectively applied to treat patients with micro-organism diseases, but the major problem is that their causative agents have become immune to these drugs. Many drugs that are based on metallocene, especially ferrocene, possess modified pharmacological and toxicological characteristics compared to their original characteristics when administered as metal-based compounds.
Parveen et al. explored the synthesis of new pyrazoline-appended ferrocenyl quinoline compounds 165a-f and checked out their antimicrobial potential [150]. Fifteen bacterial and fungal strains were exposed to these derivatives via the Broth micro-dilution method, and the compounds exhibited extraordinary MIC values against the examined stains. Among all samples, ligands 165d exhibited remarkable antimicrobial activity by measuring MIC value within the range of 8-32 Hg/mol. These organometallic compounds could be used as part of a two-in-one strategy to synthesize potential antimicrobials (Figure 60).

Ferrocene Hybrids as BET Bromodomain Inhibitors
Hassell's group synthesized a wisely intended bromodomain inhibitor 166b that was a rationally designed ferrocene conjugate of the BET bromodomain (BRD) probe molecule 166a [151]. The newly developed probe 166b displayed excellent BRD affinity in biochemical assays as well as in pharmacokinetic studies, and a slight rise in cell potency was observed when the same molecule was converted to a purported Fe (III) species in cells after exposure to sodium nitroprusside. The metabolism of the synthesized structure calls for an extensive study of its metabolism in metal-comprising compounds, which may im-

Ferrocene Hybrids as BET Bromodomain Inhibitors
Hassell's group synthesized a wisely intended bromodomain inhibitor 166b that was a rationally designed ferrocene conjugate of the BET bromodomain (BRD) probe molecule 166a [152]. The newly developed probe 166b displayed excellent BRD affinity in biochemical assays as well as in pharmacokinetic studies, and a slight rise in cell potency was observed when the same molecule was converted to a purported Fe (III) species in cells after exposure to sodium nitroprusside. The metabolism of the synthesized structure calls for an extensive study of its metabolism in metal-comprising compounds, which may improve their application in clinical settings ( Figure 61). Hassell's group synthesized a wisely intended bromodomain inhibitor 166b that was a rationally designed ferrocene conjugate of the BET bromodomain (BRD) probe molecule 166a [151]. The newly developed probe 166b displayed excellent BRD affinity in biochemical assays as well as in pharmacokinetic studies, and a slight rise in cell potency was observed when the same molecule was converted to a purported Fe (III) species in cells after exposure to sodium nitroprusside. The metabolism of the synthesized structure calls for an extensive study of its metabolism in metal-comprising compounds, which may improve their application in clinical settings ( Figure 61).

Antiviral Agent
The synthesis of 1,1-ferrocenediyl conjugates and their HCV GT-1a and GT-1b replicons has been extensively studied by Gadhachanda's group by exploiting the versatility of ferrocene chemistry [153]. Among all reported compounds, 167a offered a fragile rotary component that bargains extra conformational flexibility to provide promising affinities with the marked NS5A protein. The QSAR derived after these organometallic materials opened an influential door for the groundbreaking design of the geometrically associated, and favorably pursued, biplanar organic analog Odalasvir ( Figure 62).

Antiviral Agent
The synthesis of 1,1-ferrocenediyl conjugates and their HCV GT-1a and GT-1b replicons has been extensively studied by Gadhachanda's group by exploiting the versatility of ferrocene chemistry [152]. Among all reported compounds, 167a offered a fragile rotary component that bargains extra conformational flexibility to provide promising affinities with the marked NS5A protein. The QSAR derived after these organometallic materials opened an influential door for the groundbreaking design of the geometrically associated, and favorably pursued, biplanar organic analog Odalasvir ( Figure 62).

Electrochemical Insulin Detection
Using an advanced methodology, a stepwise fabrication process of the electrochemical sensor based on a polyfunctional fullerene/BSA-luminol nanocomposite, Fc-aptamer II, and a sandwich-like ECL detector was reported and subjected to insulin detection (Figure 63). Ferrocene, with remarkable conductivity and promising catalytic accomplishment for H2O2, was employed to inactivate aptamer II with the maximum capability, and the corresponding ferrocene-grafted aptamer II acted as a seizure probe to characterize insulin with greater specificity. Additionally, the constructed ECL aptasensor represented a sensitivity range of 0.0001-1000 ng/mL and a low limit of detection of 0.04 pg./mL (S/N =

Electrochemical Insulin Detection
Using an advanced methodology, a stepwise fabrication process of the electrochemical sensor based on a polyfunctional fullerene/BSA-luminol nanocomposite, Fc-aptamer II, and a sandwich-like ECL detector was reported and subjected to insulin detection ( Figure 63). Ferrocene, with remarkable conductivity and promising catalytic accomplishment for H 2 O 2 , was employed to inactivate aptamer II with the maximum capability, and the corresponding ferrocene-grafted aptamer II acted as a seizure probe to characterize insulin with greater specificity. Additionally, the constructed ECL aptasensor represented a sensitivity range of 0.0001-1000 ng/mL and a low limit of detection of 0.04 pg./mL (S/N = 3) for insulin [154].  An electrochemical immunosensor was selected as an efficient analytical technique to assess the ultra-sensitive detection of neuron-specific enolase (NSE) in human serum. During the experiment, it was discovered that DPV significantly altered the peak value signals of Cu-MOFs-Au and Fc-L-Cys at potentials of 0.20 V and 0.20 V, respectively. As a result, a ratiometric electrochemical immunosensor for the quantitative determination of NSE was created using Fc-L-Cys as the label for Ab2 and Cu-MOFs-Au as the electrodesensing surface. DPV tested and examined the immunosensor's data and performance results. Cu-MOFs can deposit Au nanoparticles on a greater number of sites because they have a large specific surface area in addition to offering the immunosensor the signal it needs. L-cysteine (L-Cys) can significantly reduce Fc-COOH leakage, allowing Fc + to steadily deliver the additional signal that is needed. Cu-MOFs-redox Au's peak fell while Fc-L-Cys' redox peak rose as the NSE concentration was increased. At a specific range of values, the ratio (I = ICu/IFc) of two distinct signals was linear with the logarithm of NSE concentration. In short, the immunosensor demonstrated good performance in the concentration range of 1 pg/mL to 1 g/mL, and the detection limit was 0.011 pg/mL, under the optimal experimental conditions. It demonstrated an unexpectedly high sensitivity when compared to other immunosensors. Also, this technique offered a fresh concept for the highly precise quantitative detection of other biomarkers [154].

Conclusions
This review provides insight into a wide range of aspects regarding the synthesis of organic conjugates functionalized with ferrocene motifs and their multidisciplinary applications. Ferrocene derivatives constitute an important class of organometallic compounds An electrochemical immunosensor was selected as an efficient analytical technique to assess the ultra-sensitive detection of neuron-specific enolase (NSE) in human serum. During the experiment, it was discovered that DPV significantly altered the peak value signals of Cu-MOFs-Au and Fc-L-Cys at potentials of 0.20 V and 0.20 V, respectively. As a result, a ratiometric electrochemical immunosensor for the quantitative determination of NSE was created using Fc-L-Cys as the label for Ab2 and Cu-MOFs-Au as the electrodesensing surface. DPV tested and examined the immunosensor's data and performance results. Cu-MOFs can deposit Au nanoparticles on a greater number of sites because they have a large specific surface area in addition to offering the immunosensor the signal it needs. L-cysteine (L-Cys) can significantly reduce Fc-COOH leakage, allowing Fc + to steadily deliver the additional signal that is needed. Cu-MOFs-redox Au's peak fell while Fc-L-Cys' redox peak rose as the NSE concentration was increased. At a specific range of values, the ratio (I = ICu/IFc) of two distinct signals was linear with the logarithm of NSE concentration. In short, the immunosensor demonstrated good performance in the concentration range of 1 pg/mL to 1 g/mL, and the detection limit was 0.011 pg/mL, under the optimal experimental conditions. It demonstrated an unexpectedly high sensitivity when compared to other immunosensors. Also, this technique offered a fresh concept for the highly precise quantitative detection of other biomarkers [155].

Conclusions
This review provides insight into a wide range of aspects regarding the synthesis of organic conjugates functionalized with ferrocene motifs and their multidisciplinary applications. Ferrocene derivatives constitute an important class of organometallic compounds with an extensive range of applications due to the inspiring chemistry of the iron (II) center and the adamancy in aqueous and aerobic media integrated with aromaticity. This recapitulation not only gives access to a great heterogeneity of ferrocene derivatives but also highlights the ability of these derivatives to endure simplistic iron oxidation, which makes them mesmerizing targets in numerous disciplines like materials science, agriculture, industry, electrochemistry, bio-organometallic chemistry, catalysis, and pharmacological applications. The content of this review article is confined to the literature published from 2016 to the start of 2023.