Effect of external magnetic fields and resonance radiofrequency radiation on radical reactions

The effects of fluctuating magnetic fields on the yields of chemical reactions are explored within the radical pair mechanism, for the case in which singlet and triplet radical pairs disappear at equal rates. Approximate analytical expressions and exact numerical calculations are used to discuss the

External magnetic field effects on photochemical reactions of triplet xanthone with tert-butyl-substituted phenols in an SDS micelle were studied by a transient optical absorption technique. These systems, which have been known to give CIDEP spectra due to quasi-stable radical pairs, also showed lar

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

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