Studies on the redox turnover of polyoxometalates using potentiometric chemical sensors
authors Rudnitskaya, A; Gamelas, JAF; Evtuguin, DV; Legin, A
nationality International
journal NEW JOURNAL OF CHEMISTRY
keywords ION-SELECTIVE MICROELECTRODES; HYDROGEN-PEROXIDE; HETEROPOLY ACIDS; V-51 NMR; OXIDATION; VANADIUM; OXYGEN; DELIGNIFICATION; MECHANISM; SYSTEM
abstract Redox reactions of Keggin-type polyoxometalates (POM), [PVxMo12-xO40]((3+x)-) (x = 1, 2), have been studied for the first time employing an array of potentiometric chemical sensors. Variations in the concentrations of vanadyl ions (VO2+) during the redox reactions of POMs were followed in the real-time. Differences in the vanadyl concentration profiles observed during re-oxidation of di- and mono-substituted POMs allow us to infer principally different re-oxidation mechanisms for these compounds. At the beginning of the oxidation of [(PV2Mo10O40)-Mo-IV](7-) under air an instant release of VO2+ (ca. 7%) from the coordination sphere of POM to the outside solution was detected. VO2+ concentration decreased rapidly while oxidation proceeded indicating return of vanadyl back to the coordination sphere of [(PV2Mo10O40)-Mo-V](5-). This finding indicates the participation of VO2+ outside Keggin structure in the re-oxidation mechanism of di-substituted POM. No release of VO2+ was detected during re-oxidation of [(PVMo11O40)-Mo-IV](5-) by air oxygen in the presence of laccase (this POM is not oxidisable by air at low temperature and atmospheric pressure). Biocatalysis of [(PVMo11O40)-Mo-IV](5-) oxidation may include activation of the molecular oxygen by the prosthetic group of laccase thus allowing the oxidation of V(IV) inside the Keggin structure of POM, i.e., without vanadyl release into the outside solution.
publisher ROYAL SOC CHEMISTRY
issn 1144-0546
year published 2012
volume 36
issue 4
beginning page 1036
ending page 1042
digital object identifier (doi) 10.1039/c2nj21053c
web of science category Chemistry, Multidisciplinary
subject category Chemistry
unique article identifier WOS:000301592300025
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journal analysis (jcr 2019):
journal impact factor 3.288
5 year journal impact factor 3.153
category normalized journal impact factor percentile 61.864
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