Electrophotographic and Hole Transport Properties of Polycarbonates Doped by Organic Photoconductors and Their Light- and Corona Discharge Stabilization

Abstract

Electrophotographic and hole transport properties of organic photoconductor layers on the base of a phenyltolyl-(β-naphtylamine) (PTNA) doped polycarbonate (PC) and pure (binderless) PTNA were investigated. PTNA was doped into different PCs of types PC-A and PC-Z. Hole drift mobility measured by conventional time-of-flight techniques in the PTNA+PC films was lower than that in the binderless PTNA films. Electrophotographic properties of OPC drums on the base of the PTNA and DEH doped PC layers were studied. An influence of light-, corona- and light + corona intensities on the electrophotographic characteristics of the OPC drums with stabilized or non stabilized charge transporting and generating layers was investigated as well. A stabilization of the electrophotographic layer compounds by various additives such as an antioxidant, an ultraviolet absorber, and an agent for preventing light- and corona induced deterioration was performed.