Thermal decay kinetics of radical pairs in irradiated solids

## Abstract Kinetic equations for the decay of the free radicals in polymeric solids are given for the following assumptions on which they are based: (1) two simultaneous first‐order but physically separated decay reactions; (2) two simultaneous noninteracting second‐order decay reactions; (3) comb

The power-law time dependence of luminescence decay in solids is interpreted in terms of kinetic equations in which the rate constant is governed by the efficiency with which the reactants explore a discrete lattice. It is shown that the bimolecular reaction gives the best description for a substant

Information is given on the effect of high pressure on the decay of free radicals in irradiated polyethylene. The dependence of the rate constant for decay on pressure (1-13,000 atm) was determined at 80, 90, 100 and 110 °. The mechanism of the effect of pressure on the rate constant and activation

The influence of pressure on the decay of free radicals in irradiated PMMA has been investigated by ESR over the ranges 80-130 ° and 1-13,000 atm. Dependence on pressure of both the rate constants and activation energies for decay has been determined. The influence of pressure on the mechanism of de