91238-39-0Relevant articles and documents
Mechanism of Hydride Transfer from an NADH Model Compound to p-Benzoquinone Derivatives
Fukuzumi, Shunichi,Nishizawa, Nobuaki,Tanaka, Toshio
, p. 3571 - 3578 (2007/10/02)
Charge-transfer (CT) complexes formed between an NADH model compound, 1-benzyl-1,4-dihydronicotinamide (BNAH), and a series of p-benzoquinone derivatives Q were isolated from benzene solutions of these reactants.Some isolated CT complexes exhibited long-wavelength absorption maxima in the range 670-735 nm, depending on the electron-acceptor ability of the quinone derivatives.Transient CT bands equivalent to the CT bands of the isolated complexes were observed also in the course of the hydride-transfer reactions from BNAH to Q in acetonitrile, suggesting that the CTcomplexes are intermediates for the hydride-transfer reactions.The rate constants k for the hydride-transfer reactions vary significantly with the redox potentials E0(Q/Q-*) of p-benzoquinone derivatives and span a range of more than 1E11.The primary kinetic isotope effects kH/kD also show a large variation in the range 1.5-6.2, and a bell-shaped dependence of the kH/kD values on the E0(Q/Q-*) values has been obtainded with a clear "Westheimer maximium".Quantitative analyses for these correlations of the rate constants and the isotope effects with the redox potentials of p-benzoquinone derivatives have been presented on the basis of a sequential electron-proton-electron transfer mechanism where the radical ion pair formed by the first electron transfer from BNAH to Q in the CT complex is considered to be closer to a "transition state" than an "intermediate" for most p-benzoquinone derivatives used in this study.