Title :
Charge carrier mobility in organic materials measurement with time-of-flight technique
Author :
Liu, Shun-Wei ; Huang, Ching-An ; Chang, Yih
Author_Institution :
Dept. of Mechanical Eng., Chang-Gung Univ., Taoyuan, Taiwan
Abstract :
Carrier mobility has an instant demand for understanding the operation mechanism in organic electroluminescent (EL) materials. Under the same electrical field, higher device current can be induced as utilizing higher carrier mobility material. In this report, we have measured the mobility of MA103 (Hole Injection Layer, HIL), MA203 (Hole Transport Layer, HTL), NPB (HTL) and Bebq2 (Electron Transport Layer, ETL) with time-of-flight (TOF) technique. The TOF sample is a single-layer OLED (organic light emitting display), and the active area is 1×1 cm2. Experimental results show that hole mobilities of MA103, MA203, and NPB are about one order magnitude higher than the electron mobility of Bebq2. Finally, the time-of-flight system has successfully constructed by RiTdisplay Corp., and it can accurately measure the mobility of organic materials.
Keywords :
electroluminescence; electroluminescent displays; electron mobility; hole mobility; organic compounds; organic light emitting diodes; MA103; MA203; NPB; RiTdisplay Corp; charge carrier mobility; device current; electron mobility; electron transport layer; hole injection layer; hole mobility; hole transport layer; organic electroluminescent materials; organic light emitting display; organic materials measurement; organic materials mobility; single-layer OLED; time-of-flight technique; Charge carrier mobility; Charge measurement; Commercialization; Current measurement; Flat panel displays; Mechanical engineering; Mechanical variables measurement; Organic light emitting diodes; Organic materials; Research and development;
Conference_Titel :
Lasers and Electro-Optics, 2003. CLEO/Pacific Rim 2003. The 5th Pacific Rim Conference on
Print_ISBN :
0-7803-7766-4
DOI :
10.1109/CLEOPR.2003.1277092
