Triplet exciton caging in two dimensions: Magnetic field effects

Abstract

Magnetic field dependence of the room temperature prompt fluorescence under high field conditions from mixed crystals of tetracene containing 2,3‐ benzocarbazole (BC) as guest molecules is studied both as a function of the mol fraction of BC and the orientation of the external magnetic field. Crystalline mixtures of BC in tetracene were prepared in the mol fraction range 0%–48.1%. For mol fraction xx∼9% this separation dropped to ∼41% and remained at this value for concentrations 9.4%<xx∼9%. An analysis of both the ’’on’’ and ’’off’’ field resonance enhancement in the prompt fluorescence of the host is shown to be consistent with previously reported increase in the fluorescence lifetime with x and existing pair state theory of the magnetic field effects on exciton fission provided the fission branching ratio, ε, is a function of the BC concentration. For x≳9%, ε is a monotonic increasing function of x which is interpreted as an enhancement of the geminate recombination rate of the original triplet exciton fission pair due to presence of exciton reflectors that reduce the size of the domain in which the excitons can freely move.