A Kinetic Scale for Dialkylaminyl Radical Reactions

Citations Over TimeTop 10% of 1996 papers

Abstract

A kinetic scale for dialkylaminyl radicals was established by measuring unimolecular rate constants for a series of dialkylaminyl radical clocks that spans eight orders of magnitude and using clock reactions to measure the second order rate constants for reactions of several hydrogen atom donors. N-Hydroxypyridine-2-thione derivatives of carbamic acids (so-called PTOC carbamates) were used as radical precursors in direct, laser-flash kinetic measurements and in indirect, radical chain kinetic studies. The calibrated radical clocks are N-methyl-6,6-diphenyl-5-hexenaminyl, N-methyl-trans-5-phenyl-4-pentenaminyl, N-methyl-5,5-diphenyl-4-pentenaminyl, N-methyl-trans-2-phenylcyclobutanaminyl, and N-methyl-trans-2-phenylcyclopropanaminyl. Calibrated hydrogen atom donors are Bu3SnH, t-BuSH, PhSH, and PhSeH. Whereas the tin hydride reactions with dialkylaminyl radicals are slower than reactions with alkyl radicals, the polarity-matched reactions of the electron-rich dialkylaminyl radicals with the electron-poor hydrogen donors t-BuSH, PhSH, and PhSeH have rate constants nearly equal to those for reactions of alkyl radicals with the same donor.

Related Papers

• → A pulse radiolysis and flash photolysis study of the radicals SO-2, SO-3, SO-4 and SO-5(1989)51 cited
• → Photochemical reaction kinetics and mechanism of bisphenol A with K₂S₂O₈ in aqueous solution: a laser flash photolysis study(2020)4 cited
• → Kinetics of CO Addition to Ni(cyclam)+ in Aqueous Solution(1996)25 cited
• → Electron-transfer reactions of the 2-nitrothiophen triplet state studied by laser flash photolysis(1982)13 cited
• → Quantum-Chemical Study of “Hydride” Mobility in the Molecules of Chalcogenopyrans(2005)2 cited