[1] SUJOY D, JUNGHYUN L, YOUNGILL C, et al. Effects of gate dielectric composition on the performance of organic thin-film devices［J］. Synthetic Metals, 2012, 162(7-8): 598-604.

[2] MANSOURI S, HOROWITZ G, BOURGUIGA R. Modeling of mobility in organic thin-film transistor based octithiophene (8T)［J］. Synthetic Metals, 2010, 160(15-16): 1787-1792.

[3] BRABEC C J, SARICIFTCI N S, HUMMELEN J C. Plastic solar cells［J］. Advanced Functional Materials, 2001, 11(8): 15-26.

[4] JENEKHE S A, YI S. Efficient photovoltaic cells from semiconducting polymer heterojunctions［J］. Applied Physics Letters, 2000, 77(17): 2635-2637.

[5] SHEATS J R, ANTONIADIS H, HUESCHEN M, et al. Organic electroluminescent devices［J］. Science, 1996, 273(5277): 884-888.

[6] SCOTT J C, KAUFMAN J H, BROCK P J, et al. Degradation and failure of MEH‐PPV light‐emitting diodes［J］. Journal of Applied Physics, 1996, 79(5): 2745-2751.

[7] CUMPSTON B H, PARKER I D, JENSON K F. In situ characterization of the oxidative degradation of a polymeric light emitting device［J］. Journal of Applied Physics, 1997, 81(8): 3716-3720.

[8] BLIZNYUK V N, CARTER S A, SCOTT J C, et al. Electrical and photoinduced degradation of polyfluorene based films and light-emitting devices［J］. Macromolecules, 1999, 32(2): 361-369.

[9] KIM J S, HO P K H, MURPHY C E, et al. Nature of non-emissive black spots in polymer light-emitting diodes by in-situ micro-raman spectroscopy［J］. Advanced Materials, 2002, 14(3): 206-209.

[10] NGUYEN T P, JOLINAT P, DESTRUEL P, et al. Degradation in organic light-emitting diodes［J］. Thin Solid Films, 1998, 325(1-2): 175-180.

[11] MU H, SHEN H, KLOTZKIN D. Dependence of film morphology on deposition rate in ITO/TPD/Alq3/Al organic luminescent diodes［J］. Solid State Electronics, 2004, 48(10-11): 2085-2088.

[12] STEIGER J, KARG S, SCHMECHEL R, et al. Aging induced traps in organic semiconductors［J］. Synthetic Metals, 2001, 122(1): 49-52.

[13] QIN Zhe, XU Wei, LIN Hai-bo, et al. Study on current aging of new conjugated polymer PFO-BT15 light-emitting-diodes［J］. Spectroscopy and Spectral Analysis, 2008, 28(8): 1741-1744.

[14] LIN Hai-bo, XU Xiao-xuan, WU Hong-bin, et al. Study on the degradation of polymer light-emitting diodes by in-situ micro-raman spectroscopy［J］. Spectroscopy and Spectral Analysis, 2004, 24(6): 701-703.

[15] KIM J S, HO P K H, MURPHY C E, et al. Electrical degradation of triarylamine-based light-emitting polymer diodes monitored by micro-Raman spectroscopy［J］. Chemical Physics Letters, 2004, 386(1-3): 2-7.

[16] LIEM H, CABANILLAS-GONZALEZ J, ETCHEGOIN P, et al. Glass transition temperatures of polymer thin films monitored by Raman scattering［J］. Journal of Physics: Condensed Mater, 2004, 16(6): 721-728.

[17] LIN Hai-Bo, XU Xiao-xuan, WANG Bin, et al. Study of Poly(3,4-ethylene dioxythiophene): Ploy(styrene sulfonate) by In-situ Micro-Raman Spectroscopy［J］. Spectroscopy and Spectral Analysis, 2006, 26(4): 646-648.