Nonlinear Emission from 8-Hydroxyquinoline Aluminum and Diamine Derivative Superlattice Structures Excited by Third-Harmonic-Generation from Nd:YAG Laser Light

Abstract

Photoluminescence from organic superlattice structures with 8-hydroxyquinoline aluminum (Alq₃) and aromatic diamine (TPD) has been studied in terms of the excitation power density of third-harmonic-generation (THG) light from a Nd:YAG laser and the layer thickness of superlattice structures. The photoluminescence intensity from the Alq₃ layer is enhanced with decreasing layer thickness of TPD in a superlattice structure independent of the excitation power density. With increasing excitation power density, the photoluminescence intensity from the TPD layer is enhanced compared with that from Alq₃. The mechanism of nonlinear photoluminescence emission from Alq₃ and TPD superlattice structures is discussed, taking the energy transfer and the interaction of excitons in the superlattice structure into consideration.