Peroxido complexes of vanadium

[Display omitted] •Structures of 163 peroxido complexes of vanadium are reviewed.•Structural aspects and reactivity in solution are discussed.•Vibrational spectra, 51V NMR spectra and thermal decomposition data are provided.•Future development of peroxidovanadium compounds is proposed. Peroxido comp...

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Bibliographic Details
Published in:Coordination chemistry reviews 2016-07, Vol.318, p.135-157
Main Authors: Schwendt, Peter, Tatiersky, Jozef, Krivosudský, Lukáš, Šimuneková, Mária
Format: Article
Language:English
Subjects:
51V NMR spectra
Molecular structure
Peroxido/peroxo complexes of vanadium
Peroxidovanadates
Thermal decomposition
Vibrational spectra
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Summary:[Display omitted] •Structures of 163 peroxido complexes of vanadium are reviewed.•Structural aspects and reactivity in solution are discussed.•Vibrational spectra, 51V NMR spectra and thermal decomposition data are provided.•Future development of peroxidovanadium compounds is proposed. Peroxido complexes represent an important group of vanadium compounds having practical applications in distinct areas of chemistry. They possess insulin mimetic properties, antitumor activity and stimulate or inhibit certain enzymes. The bioinorganic chemistry of peroxidovanadates studies also the role of vanadium in the active centers of vanadium dependent enzymes (haloperoxidases and nitrogenases). Peroxidovanadium compounds are intensively studied for their oxidative properties. They can act as catalysts or stoichiometric oxidants in oxidation reactions of organic compounds, e.g. in epoxidation, sulfoxidation, hydroxylation or bromination. This versatility of vanadium peroxido complexes necessitates a critical review of their molecular structure and properties both in solution and in solid state. In this inclusive review we present the complete set of peroxido complexes of vanadium heretofore characterized by X-ray diffraction analysis. Along with the molecular structures we present and discuss the solid state vibrational spectra and thermal decomposition data. Vibrational, UV–vis and 51V NMR spectraof complexes dissolved in various solvents are also discussed. We have extracted the data from several speciation studies in order to clarify the formation conditions for different types of peroxidovanadates and summarize their 51V NMR chemical shifts. We also refer to certain applications of peroxido complexes of vanadium and we place the emphasis on potential applications which have not yet been thoroughly examined but deserve more attention.
ISSN:0010-8545
1873-3840
DOI:10.1016/j.ccr.2016.03.011