Editorial for the Special Issue on Advanced Thin-Films: Design, Fabrication and Applications

The application scope of basic functional materials can be expanded through the creation of thin films due to the emergence of new unique properties of film materials that differ from their bulk analogues [...].

films and studied the influence of the structure and morphology of the obtained films on the efficiency of hydrogen generation.
Due to their properties, MASnI 3 and CsPbI 3 perovskites are considered promising materials for solar cells.In their work, K.H. Mahmoud et al. (Contribution 3) modeled solar cells, and their charge transfer mechanisms and cell characteristics were determined, including open circuit voltage and C-V characteristics for the most efficient energy conversion.The influence of annealing on perovskite film materials, which determines their temperature instability, has been established.
Oxygen sensors are used in many industries, including metallurgy, the chemical industry, and mechanical engineering.Thin films are a promising technology in terms of the miniaturization and scale-up of O 2 gas sensor production.The resistance of TiO 2 films depends on the oxygen content in the gas atmosphere, so they can be used when creating sensors.Plasma-enhanced atomic layer deposition (ALD) technology is of particular interest for the formation of thin films of titanium dioxide TiO 2 on SiO 2 /Si substrates.The TiO 2 films obtained by A.V. Almaev et al. (Contribution 4) demonstrated high sensitivity to oxygen in the range of 0.1 to 100 vol.%.A mechanism describing the effect of oxygen concentration on film resistance has been proposed.
The creation of autonomous devices using generators based on piezoelectric materials is in great demand since such devices can operate independently of batteries and other power sources.Piezoelectric generators provide electrical energy generation through human movement and can be installed in compact health monitoring devices, sensors and other portable electronic devices [5,6].In this regard, it is of interest to create biocompatible composite piezoelectric materials based on Na 0.5 Bi 0.5 TiO 3 (NBTO) nanoparticles in biopolymer-chitosan composites; this study was carried out by J. Zidani et al. (Contribution 5), and the piezoelectric, optical and dielectric properties of the composite structures were determined.
Composite thin-film materials with ferroelectric properties are used as actuators to control the shape of optical reflectors.To create such shells, the use of composite structures in the form of ferroelectric polymer films poly(vinylidene fluoride-co-hexafluoropropylene) (PVDF-HFP) or poly(vinylidene fluoride-trifluoroethylene) (PVDF-TrFE) on a polyethylene terephthalate (PET) substrate was studied.Research and modeling of thin-film actuators was carried out by K. Wang et al. (Contribution 6), and the problem of creating polymer reflectors based on the proposed film structures was discussed.
In the field of creating thin-film superconducting layers of REBa 2 Cu 3 O 7-x (REBCO), the formation effect of MgO-based surface layers on a base substrate (Hastelloy) was investigated.Devices based on high-temperature superconducting YBa 2 Cu 3 O 7-x (YBCO) maintain a superconducting state up to a temperature of 77 K at a current density below the critical value.High-temperature superconductors exhibit broad application prospects in the fields of powerful electromagnets, electric motors, and also power lines.F. Yu et al. used ion beam-assisted deposition (IBAD) technology as well as electron beam evaporation technology to form the textured films (Contribution 7).
In their research, D. Park et al. considered the formation of mechanical stresses in periodic structures with nanogaps on stretchable substrates; this knowledge can be used in the field of electronic and optical devices.The model used included a set of nanogaps (10 nm) on a flexible polydimethylsiloxane (PDMS) substrate coated with a 100 nm thick layer of gold.A calculation of mechanical stresses was performed based on twodimensional finite element analysis (2D finite element analysis) (Contribution 8).
Titanium dioxide exhibits photocatalytic activity under ultraviolet light, which determines its use in the field of environmental purification [7][8][9].T.G.Getnet et al. used the plasma spraying of TiO 2 powder simultaneously with the plasma polymerization of hexamethyldisiloxane (HMDSO).The influence of plasma excitation energy on the properties of the obtained composite films, thickness, roughness and wettability, was studied (Contribution 9).
Hafnium oxide thin films have attracted significant attention as promising materials for optical devices due to their optical properties, chemical and mechanical stability, high hardness and laser damage resistance [10,11].HfO 2 thin films on quartz substrates were obtained via the magnetron sputtering of an Hf target in an oxygen atmosphere by Y. Xi et al. (Contribution 10).The effect of various negative biases on the substrate during direct current deposition was studied.It was established that setting the negative bias voltage at certain values (−25 and −50 V) leads to increased density of the HfO 2 films.
The electrodeposition of nickel-based coatings is used in a wide range of technical applications due to their operational properties, such as resistance to corrosion, high hardness and wear resistance.Electrodeposition technology is flexible widely used in industrial production, including mechanical engineering and electronic devices [12,13].Interesting results on the modification of Ni were shown in the research carried out by V. Tseluikin et al. (Contribution 11).The co-electrodeposition of Ni and graphene oxide (GO) particles was carried out, and the effect of microwave treatment on the obtained Ni-GO composite coatings was investigated.An increase in the hardness of Ni-GO composite coatings was established, which is important in terms of technical applications.However, the obtained composite coating showed a decrease in corrosion resistance compared to the original Ni coating.
CdS/Si heterostructures are of significant interest in the field of optoelectronic devices [14].CdS thin films were obtained via pulsed laser ablation in a liquid (PLAL) using a Dimethyl sulfoxide (DMSO) solution into which a Cd target was placed.F.H. Alkallas et al. studied the current-voltage and optical characteristics of the obtained structures, and the possibility of creating photodetectors based on them was confirmed (Contribution 12).
Due to their unique properties, AlN films have a very wide range of applications in electronic devices, microelectromechanical systems (MEMSs) and acoustic resonators [15,16].The epitaxial growth of AlN films on the surface of sapphire substrates coated with molybdenum was studied by J. Kim et al. (Contribution 13).It was established that highly oriented Mo thin films provide the transfer of crystallographic information from the sapphire substrate to the AlN film during epitaxial growth.The obtained results can be used to create AlN films of high crystallinity for MEMS devices.
The topics covered in the Special Issue are presented in Figure 1.The papers presented in this Special Issue are of interest to the scientific community and can guide future efforts to create new film structures with unique functional properties.I would like to express my gratitude to the authors, who provided insight into the problems

Figure 1 .
Figure 1.Application areas of promising thin films, methods of their formation and used materials, according to articles published in the Special Issue «Advanced Thin-Films: Design, Fabrication and Applications».