Unexpected sense dependence of the effect of a magnetic field on delayed fluorescence

Fluorcsccncc from the 'A, state o~glyosal is quenched by a magnetic field and the prc-cxponential Factor of phosphorcsccncc from lhc 3A, state increases with increasing mugetic field. These finding arc csplained by the cnhancemcnt of inrmmolcculor intersystcm crossing by the mugnctic field.

The magnetic field effect on the intensity of delayed monomer fluorescence is different from the effect on delayed dimer fluorescence. It is concluded that delayed monomer and dimer fluorescence must stem from Wo different types of T-T annihilation process. Pola&ation of the magnetic fieldeffects ha

The use of magnetic field effects in delayed fluorescence (DF) and electrogenerated chemihrminescence (ECL) studies to obtain information about the involvement of triplet state species in reactions leading to the production of monomeric and dim&c (excimer or exciplex) excited states is described. In