Hydrogen transfer by ketyl radicals: The reductive dimerization of quinone methides

## Abstract The mechanistic alternatives in the literature for quinone dehydrogenations of hydroaromatic to aromatic hydrocarbons are reviewed. In a kinetic study of the reaction of DDQ 16 with 9,10‐dihydroanthracene (13) or xanthene (17) small solvent effects and small rate differences between 13

The reduction of four triphenyl methane (TPM) dyes (brilliant green (BG+), malachite green (MG' ), crystal violet (CV+) and methyl green (MEG")) by diphenyl ketyl radicals (BPH' ) and hydrated electrons (e,,-) was studied by pulse radiolytic kinetic spectrophotometry. The rate constants for the re

The Cp 2 TiPh-Mediated Reductive Radical Cyclization of Cyanoketones and Related Reactions. Efficient Trapping of Ketyl Radicals by Cp 2 TiPh-Coordinated Polar Multiple Bonds. -The Cp 2 TiPh-mediated radical cyclization of cyanoketones in both the 5-and 6-exo modes is successful to provide an easy

## Abstract From the uncatalyzed transfer‐hydrogenation of azulene 1 with the hydrogen donors 9,10‐dihydroanthracene (4), 7__H__‐benz[__de__]anthracene (5) and 9,9‐diphenyl‐10,10‐dideuteroanthracene (6) at 340–375°C in diphenyl ether, two isomeric octahydroazulenes and, in addition, naphthalene and