Commemorating 150 Years of Justus von Liebig’s Legacy

doi:10.3390/books978-3-7258-0439-9

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Commemorating 150 Years of Justus von Liebig’s Legacy

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March 2024

348 pages

ISBN978-3-7258-0440-5 (Hardback)
ISBN978-3-7258-0439-9 (PDF)

https://doi.org/10.3390/books978-3-7258-0439-9

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This book is a reprint of the Special Issue Commemorating 150 Years of Justus von Liebig’s Legacy that was published in

Chemistry & Materials Science

Summary

Justus Freiherr (Baron) von Liebig (born 12 May 1803 – died 18 April 1873) was a renowned German chemist who made significant contributions to inorganic, organic, and agricultural chemistry. Liebig's work at the University of Giessen in Germany led to the development of modern teaching methods based on experimental laboratory-oriented work. This earned him recognition as one of the "greatest chemistry teachers of all time". He is often referred to as the “father of the fertilizer industry” from his seminal contributions on nitrogen and trace minerals as essential plant nutrients.Through these contributions and more, Liebig helped shape the field of inorganic, organic, food, and agricultural chemistry. Thus, it is more than deserved that a Special Issue of Chemistry was dedicated in 2023 to commemorate 150 Years of Justus von Liebig’s Legacy. We are happy that 21 colleagues and their coworkers from all areas of chemistry accepted our invitation and contributed to this Special Issue of Chemistry in 2023. Their contributions are now also collected in this Special Issue reprint.

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Keywords

silver; gold; copper; perfluorinated carboxylates; molecular structures; TGA; cyclopentadienyl ligand; phosphine ligand; rhodium; palladium; gold; thallium; tellurium; rhenium; oxido bridge; DFT; group 13 diyls; low-valent metal; cycloaddition; aldol addition; coordination polymers; fluorescence; metal–organic frameworks; methoxy substituents; terephthalates; divalent europium; cerium; NIR emitter; N-donor ligand; salicylaldiminato ligands; zinc; coordination geometry; photophysical properties; Justus Liebig; history of chemistry; begin of modern chemistry; calcium phosphate; nanoparticles; surface functionalization; proteins; drug delivery; click chemistry; gold; wastewater; water treatment; Cr(VI); heavy metals; adsorption; sugarcane bagasse; activated carbon; low-cost; ethers; combustion calorimetry; enthalpy of formation; transpiration method; vapour pressure; enthalpy of vaporisation; enthalpy of reaction; quantum chemical calculations; proline catalysis; stereoselective synthesis; catalytic cycle; quantum chemical calculations; fluorescent dyes; nucleotide recognition; heterocycles; host–guest chemistry; soluble triplet emitters; synthesis of Pt(II) complexes; (time-resolved) photoluminescence spectroscopy; dithiolene complex; 1,2,3-triazole ligands; click chemistry; CuAAC; thiol protective groups; coordination chemistry; copper clusters; inverse coordination; µ₄-oxido copper clusters; TPP; TPPO; anhydrous complexes; dinuclear complexes; ionic liquids; photoluminescence; rare-earth oxides; regeneration; Van Vleck paramagnetism; Suzuki–Miyaura reaction; biomimetic thioesters; polyketide synthases; enzymes; cyclases; melaminate; antimony; melamine; melaminium; deprotonation; crystal structures; metal–ligand dπ-pπ-interaction; Ir-O,S bond dissociation enthalpies; DFT; P/LNO-CCSD(T) calculations; oxidation state analysis; metal–ligand charge transfer; non-innocent ligand; pyridine di-imine ligand; copper; silver; ALD; MOCVD; N-coordinated precursors