Eric Steffensmeier scite author profile

Eric Steffensmeier

3Publications

75Citation Statements Received

77Citation Statements Given

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176

Affiliations

University of Oklahoma, Texas A&M University

Publications

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Oxidation–reductive coupling of alcohols catalyzed by oxo-vanadium complexes

Steffensmeier

Nicholas

2018

Chem. Commun.

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Oxo-vanadium complexes are found to catalyze the redox disproportionation of benzylic and allylic alcohols, which results in co-production of carbonyl products and reductively coupled hydrocarbon dimers. Preliminary experimental and computational findings suggest the intervention of reduced V-alkoxide species, which undergo facile C-O bond homolysis to produce carbon free radicals, precursors to the hydrocarbon dimers.

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Wilkinson-type hydrogenation catalysts immobilized on zirconium phosphate nanoplatelets

Silbernagel

Díaz

Steffensmeier

et al. 2014

Journal of Molecular Catalysis A: Chemical

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Mechanistic Features of the Oxidation–Reductive Coupling of Alcohols Catalyzed by Oxo-Vanadium Complexes

2018

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The oxo-vanadium-catalyzed redox disproportionation of activated alcohols (oxidation–reductive coupling, Ox–RC) produces carbonyl compounds and hydrocarbon dimers. A mechanistic study of this novel reaction is reported herein. Following our initial disclosure, new findings include the following: (1) The [(salimin)VO2]−-catalyzed Ox–RC of Ph2CHOH in the presence of fluorene affords the products of H-atom abstraction and all possible hydrocarbon dimers. (2) Electronic substituent effects on the relative rates of Ox–RC with respect to 4-X-BnOH reactants and Bu4N[(Y-salimin)VO2] catalysts (1a–c) reveal (a) a correlation of the oxidation rate of X-BnOH reactants with the radical σ parameter and (b) correlation of the oxidation rate for (Y-salimin)VO2 – with the standard Hammett σ parameter. (3) The ease of electrochemical reduction of 1a–c is Y = NO2 > OMe > H. (4) Ambient 1H NMR studies of the interaction of 1 with alcohols suggest only a weak equilibrium association. (5) Density functional theory computational modeling of the Ox–RC reaction supports a ping-pong-type catalytic pathway, beginning with alcohol oxidation by (salimin)VO2 –, preferably by stepwise-H-atom transfer from the alcohol to 1, affording the carbonyl product and the reduced (salimin)V(III)(OH)2 –. The reduction half-reaction likely begins with condensation of the latter species with R2CHOH to give the alkoxide complex (salimin)V(OR)OH–; homolysis of the R···OV(III)(salimin) bond affords (salimin)V(IV)OH(O)− and the R-radical; the latter dimerizes and the former can disproportionate via H-transfer to reform catalyst (salimin)VO2 – (1) and (salimin)V(OH)2 –.

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