[1] JANSENVAN V, ARMIN A, PANDEY AK. Organicphotodiodes:The future of full color detection and image sensing［J］. Advanced Materials, 2016, 28(24):4766-4802.

[2] NAM M, CHA M, LEE H H, et al. Long-term efficient organic photovoltaics based on quaternary bulk heterojunctions［J］. Nature Communications, 2017, 8:14068.

[3] MA Xiao-ling, GAO Wei, YU Jiang-sheng, et al. Ternary nonfullerene polymer solar cells with efficiency >13.7% by integrating the advantages of materials and two binary cells［J］. Energy & Environmental Science, 2016, 11(8):2134-2141.

[4] SHIN H, KIM J, LEE C,Ternary bulk heterojunction for wide spectral range organic photodetectors［J］. Journal of the Korean Physical Society, 2017, 71(4):196-202.

[5] ZARFA Q, AHMAD Z. Dual donor bulk-heterojunction to realize a quick and more sensitive organic visible photodector［J］. Journal of Materials Science: Materials in Electronics, 2018, 29(13):11144-11150.

[6] NIE Ri-ming, ZHAO Ze-jia, DENG Xian-yu. Roles of electrode interface on the performance of organic photodetectors［J］. Synthetic Metals, 2017, 227:163-169.

[7] LI Ling-liang, ZHANG Fu-jun, WANG Wen-bin, et al. Trap-assisted photomultiplication polymer photodetectors obtaining an external quantum efficiency of 37500%［J］. ACS Applied Materials & Interfaces, 2015, 7(10):5890-5897.

[8] WANG Yue, ZHU Li-jie, HU Yu-feng, et al. High sensitivity and fast response solution processed polymer photodetectors with polyethylenimine ethoxylated (PEIE) modified ITO electrode［J］. Optics Express, 2017, 25(7):7719-7729.

[9] ZHANG Shao-qing, YE Long, HOU Jian-hui. Breaking the 10% efficiency barrier in organic photovoltaics: morphology and device optimization of well-known PBDTTT polymers［J］. Advanced Energy Materials, 2016, 6(11):1502529.

[10] SHIN H, KIM J, LEE C. Ternary bulk heterojunction for wide spectral range organic photodetectors［J］. Journal of the Korean Physical Society, 2017, 71(4):196-202.

[11] JAVIER A A, BLAU W J. Enhanced device performance using different carbon nanotube types in polymer photovoltaic devices［J］. Carbon, 2008, 46(15):2067-2075.

[12] BHATIA R, KUMAR L. Functionalized carbon nanotube doping of P3HT:PCBM photovoltaic devices for enhancing short circuit current and efficiency［J］. Journal of Saudi Chemical Society, 2016, 21(3):366-376.

[13] WANG Xue-jiao, XU Wei-juan, WANG Jian-jun, et al. Comparative investigation of binary and ternary donor-acceptor conjugated polymer for photovoltaic application［J］.Material Sciences, 2018, 8(1):1-10.

[14] NAM S, SEO J, HAN H, et al. Efficient deep red light-sensing all-polymer phototransistors with p-type/n-type conjugated polymer bulk heterojunction layers［J］. ACS Applied Materials & Interfaces ,2017, 9(17) :14983-14989.

[15] WRI G D, WANG Si-yi, RENSHHAW K, et al. Solution-processed squaraine bulk heterojunction photovoltaic cells［J］. Acs Nano, 2010, 4(4):1927-34.

[16] LU LY, XU T, et al. Ternary blend polymer solar cells with enhanced power conversion efficiency［J］. Nature Photonics, 2014, 8(9):716-722.

[17] LU L , CHEN W , XU T, et al. High-performance ternary blend polymer solar cells involving both energy transfer and hole relay processes［J］. Nature Communications, 2015, 6:7327.

[18] YONG J C, LEE J Y, CHIN B D, et al. Polymer bulk heterojunction photovoltaics employing a squaraine donor additive［J］. Organic Electronics, 2013, 14(4): 1081-1085.

[19] ZHANG D , LIU C , LI K, et al. Trapped-electron-induced hole injection in perovskite photodetector with controllable gain［J］. Advanced Optical Materials, 2018,6(4):1701189.

[20] YONG J C, LEE J Y, CHIN B D, et al. Polymer bulk heterojunction photovoltaics employing a squaraine donor additive［J］. Organic Electronics, 2013, 14(4): 1081-1085.

[21] NIE R, DENG X, FENG L, et al. Highly sensitive and broadband organic photodetectors with fast speed gain and large linear dynamic range at low forward bias［J］. Small, 2017, 13(24):1603260.

[22] GAO Y L. Surface analytical studies of interfaces in organic semiconductor devices［J］. Materials Science & Engineering Reports, 2010, 68(3):39-87.

[23] WANG Y, ZHU L, HU Y, et al. High sensitivity and fast response solution processed polymer photodetectors with polyethylenimine ethoxylated (PEIE) modified ITO electrode.［J］. Optics Express, 2017, 25(7):7719.

[24] CHEN F C, CHIEN S C, CIOUS G L. Highly sensitive, low-voltage, organic photomultiple photodetectors exhibiting broadband response［J］. Applied Physics Letters, 2010, 97(10):195.