[1] MA Feng-ying, SU Jian-po, CHENG Dong-ming, et al. High efficiency high brightness red emission microcavity organic light-emitting diode [J]. Acta Photonica Sinica, 2007, 36(8): 1397-1399.
[2] ZHU Feng, ZHAO Ying, ZHANG Xiao-dan, et al. P-nc-Si.H film materials and its application in microcrystalline silicon solar cells[J]. Journal of Optoelectronics Laser, 2004, 15(04): 381-384.
[3] SERVICE R F. Organic LEDs look forward to a bright, white future[J]. Science, 2005, 310(5755): 1762-1763.
[4] DUAN L, LIU Q, Li Y, et al. Thermally decomposable lithium nitride as an electron injection material for highly efficient and stable OLEDs [J]. Journal of Physical Chemistry C, 113(30): 13386-13390.
[5] DING Huan-jun, GAO Yong-li. Evolution of the unoccupied states in Cs-doped copper phthalocyanine [J]. Applied Physics Letters, 2008, 92(5): 3309-3311.
[6] ROCA ICBARROCAS P, FONTCUBERTA IMORRAL A, KALACHE B. Microcrystalline silicon thin films grown by pecvd growth mechanisms and graim size control [J]. Solid State Phenomena, 2003, 93(10): 256-270.
[7] CAO Jin, JIANG Xue-yin, ZHANG Zhi-lin, et al. MoO modified Ag anode for top-emitting organic light-emitting device [J]. Applied Physics Letters, 2006, 89(25): 252108-1-4.
[8] YOOK K S, JEON S O, JOO C W, et al. Air stable and low temperature evaporable LiFN as n type dopant in organ light-emitting diodes[J]. Synthetic Metals, 2009, 159(15-16): 1663-1666.
[9] KIDO J, MATSUMOTO T. Bright organic electroluminescent devices having a metal-doped electron-injecting layer [J]. Applied Physics Letters, 1998, 73(20):2860-2868.
[10] XIE G, MENG Y, WU F, et al. Very low turn-on voltage and high brightness tris-(8-hydroxyquinoline) aluminum-based organic light-emitting diodes with a MoOX p-doping layer[J]. Applied Physics Letters, 2008, 92(9): 3305-3307.