Substituent effects on the lifetime and fluorescence of excited diphenylmethyl radicals in solution

The lifetime of excited diphenyl ketyl radicals is lengthened by deuterium substitution. The largest effect is obyrved by substitution at the hydroxyllc positioni for example, the lifetimes are 3.9, 4.2, 8.7 and 10.5 ns for (C6H5)2COH, (C&)#OH, (C6Hs)2COD and (C&)2COD, respectively, in toluene or to

The triplet yields and lifetimes of a series of substitu ted benzophenoncs have been determined by their cfficienc) in sensirizing biacetyl phosphorescence, in benzene solution. The triplet decay constants of nine Pam-substituted derivatives show n satisfactory Hnmmett-type correlation. The results

The absorpuon spsuum. fluorescence and kineucs of cl(p-melhylphenyl)methyleae have been exarmned uang laser photolysis k&niques In acetonitrile tie exerted carbene has a lifetime of 5 6 ns at room temperature and reacts wrth carbon letrachlonde wltb k = 1.1 X IO9 M-' s-l-The absorption of the exated

Five aryl-substituted phenacetyl radicals (X = p-MeO, p-Me, H, p-Cl, p-CF 3 ) were generated by laser photolysis of the corresponding dibenzyl ketones in n-hexane and acetonitrile. The decarbonylation reaction was monitored through the rise in time-resolved absorption of the benzyl radical chromopho

Nanosecond transient absorption studies of the lifetimes (5) of several substituted 1 ,n-diphenyl-1 ,n-diyls are reported in polar and non-polar solvents. A para-bromine substituent significantly shortens r. Substitution of OH in the l-position makes the lifetime highly solvent dependent. The substi