Internal magnetic field effect of lanthanoid ions on the photochemical reaction of naphthoquinone in a micelle

The mqnetx field etlcct upon the decay rate of the benzophenone betyl rsdrcal m rnrcellar solutaon ~3s stuched va nanosecond her photoi) srs Its decay IS represented by a comb~atron of two exponentrals The rate constant oi rhe slon component X\ZIS found to decrease from 1 6 Y IO6 s-' at zero field t

When a fuel gas flows in the direction of a magnetic field of decreasing strength, a combustion reaction is found to be activated. The relationship between the direction of a fuel-gas flow and the steepest gradient of the magnetic field was observed to determine how the reaction was promoted. This

The behavor of geminate inplet benzyl radical pairs in anionic micelles has been invectigated us a function of added lanthanide ions ( \(\mathrm{Ln}^{3+}\) ) in the presence and absence of a laboratory Tield Although the percent of glminate radical coupling is insensituve to the nature of added \(\m

A pronounced solvent viscosity and polarity dependence of the magnetic field effect was found for polymethylene-linked radical ion pairs generated by photoinduced intramolecular electron transfer in compounds of the type pyrene-(CH\*),-N,N-dimethylaniline, with n = 7-16. This is interpreted in terms