Publication Type Journal Article
Title Radical reactions of diamine bis(phenolate) vanadium(III) complexes. Solid state binding of O-2 to form a vanadium(V) peroxo complex
Authors Sonia Barroso Ana M. Coelho Pedro Adão Maria Jose Calhorda Ana M. Martins
Groups BIOIN IOARC
Journal DALTON TRANSACTIONS
Year 2017
Month August
Volume 46
Number 29
Pages 9692-9704
Abstract [VCl3(THF)(3)] reacted with the sodium salt of a tripodal diamine bisphenolate ligand precursor Na(2)L2 to give a paramagnetic d(2) complex [V(L2) Cl] (2). The reaction of 2 with oxygen is strongly dependent on the experimental conditions, affording [VO(L2) Cl] (6) or [V(eta(2)-O-2)(L2) Cl] (7). The formation of 7 involves the direct addition of O-2 to V(III) in the solid state with oxidation to V(V) without significantly disturbing the structure of 2. DFT calculations showed that compound 7 is an intermediate in the formation of 6 from 2. The reaction involves the cleavage of the eta(1)-O-O bond in a proposed dimeric species. The overall reaction of 2 moles of vanadium(III), complex 2, and one mole of O-2 to yield two moles of product 6 is a favourable process with Delta G(298) = -38.3 kcal mol(-1). 7 is the first non-oxido peroxidovanadium(V) complex obtained directly from the reaction of a crystal and the second example of a structurally characterized complex of that type. Reactions of V(L1) Cl (1) and V(L2) Cl (2) with one equivalent of the nitroxyl radical TEMPO in toluene also result in the formation of oxido V(V) complexes, VO(L1) Cl (5) and VO(L2) Cl (6). The reaction of VO(OiPr)(3) with Na(2)L2 afforded [VO(L2)((OPr)-Pr-i)] (8) in high yield. A major isomer having the VvO moiety in the equatorial plane was characterised by X-ray diffraction although solution NMR data showed the presence of a minor species with the oxido ligand trans to the tripodal nitrogen, as in 6. Complexes 6 and 8 are very active and selective sulfoxidation catalysts of thioanisole, but no enantiomeric excess was obtained.
DOI http://dx.doi.org/10.1039/c7dt01699a
ISBN
Publisher ROYAL SOC CHEMISTRY
Book Title
ISSN 1477-9226
EISSN 1477-9234
Conference Name
Bibtex ID ISI:000408692700041
Observations
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