[1] CHENG Tianyou, Jiunhaw LEE, CHEN Chiahsum et al. Carrier transport and recombination mechanism in blue phosphorescent organic light-emitting diode with hosts consisting of Cabazole- and Triazole-Moiety[J]. Scientific Reports, 9, 3612-3654(2019).

[2] Jaejin LEE, LI Peicheng, KUNG Haoting et al. Highly efficient top-emission organic light-emitting diode on an oxidized aluminum anode[J]. Journal of Applied Physics, 125, 145501(2019).

[3] JUNG H et al. Hybrid white organic light emitting diodes using dual core blue fluorescent emitter[J]. Journal of Nanoscience and Nanotechnology, 19, 1141-1144(2019).

[4] THOMSCHKE M, NITSCHE R, FURNO M et al. Optimized efficiency and angular emission characteristics of white top-emitting organic electroluminescent diodes[J]. Applied Physics Letters, 94, 83303(2009).

[5] 等Preparation of highly-efficient tandem OLED based on B3PyMPM∶Cs[J]. Acta Photonica Sinica, 49, 0123003(2020).

[6] HE Y, HATTORI R, KANICHI J. Four-thin film transistor pixel electrode circuits for active-matrix organic light-emitting displays[J]. Japanese Journal of Applied Physics, 40, 1199-1208(2001).

[7] SONG J, KWON B et al. Stabilizing color shift of tandem white organic light-emitting diodes[J]. Journal of Industrial and Engineering Chemistry, 69, 414-421(2019).

[8] NAJAFABADI E, KNAUER K A, HASKE W et al. High-performance inverted top-emitting green electrophosphorescent organic light-emitting diodes with a modified top Ag anode[J]. Organic Electronics, 14, 1271-1275(2013).

[9] WU Zhijun, GUO Hengqun, WANG Jiaxian. Highly efficient green top-emitting organic light-emitting devices with metal electrode structure[J]. Microelectronics Journal, 38, 686-689(2007).

[10] CHEN Shufen, DENG Lingling, XIE Jun et al. Recent developments in top-emitting organic light-emitting diodes[J]. Advanced Materials, 22, 5227-5239(2010).

[11] KWON S K, KIM K S et al. Efficient micro-cavity top emission OLED with optimized Mg：Ag ratio cathode[J]. Optics Express, 25, 29906-29915(2017).

[12] WANG Xiao, ZHENG Yanqiong, LIN Yang et al. Fabrication and characterization of double-sided organic light-emitting diodes using silver and nickel as the metal linking layer[J]. Displays, 44, 37-41(2016).

[13] DONG Chen, FU Xiangyu, CAO Linyu et al. Multi-mode organic light-emitting diode to suppress the viewing angle dependence[J]. ACS Applied Materials & Interfaces, 12, 31667-31676(2020).

[14] JI Wenyu, ZHANG Letian, GAO Ruixue et al. Top-emitting white organic light-emitting devices with down-conversion phosphors： theory and experiment[J]. Optics Express, 16, 15489-15494(2008).

[15] CHEN Shufen, Zhonghai JIE, ZHAO Zhenyuan et al. Improved light outcoupling for top-emitting organic light-emitting devices[J]. Applied Physics Letters, 89, 43505(2006).

[16] YU Wenjuan, SHEN Liang, MENG Fanxu et al. Effects of the optical microcavity on the performance of ITO-free polymer solar cells with WO₃/Ag/WO₃ transparent electrode[J]. Solar Energy Materials and Solar Cells, 100, 226-230(2012).

[17] YASUDA Y, KOBAYASHI S, UCHIDA T et al. Top-emission organic light emitting diode with indium tin oxide top-electrode films deposited by a low-damage facing-target type sputtering method[J]. Thin Solid Films, 698, 137868(2020).

[18] KNAUER K A, NAJAFABADI E, HASHE W et al. Stacked inverted top-emitting green electrophosphorescent organic light-emitting diodes on glass and flexible glass substrates[J]. Organic Electronics, 14, 2418-2423(2013).

[19] CHEN Shufen, ZHAO Yi, CHENG Gang et al. Improved light outcoupling for phosphorescent top-emitting organic light-emitting devices[J]. Applied Physics Letters, 88, 153517(2006).

[20] XIE Wenfa, CHEN Shufen, ZHANG Letian et al. Top-emitting organic light-emitting devices with different-thickness top silver cathodes[J]. Journal of Physics D： Applied Physics, 40, 5888-5891(2007).

[21] ZHANG Juan, JIAO Zhiqiang, YAN Huajie等. Influence of microcavity effect on the performance of top emission tandem blue organic light emitting device[J]. Acta Physica Sinica, 69, 229-243(2020).

[22] MAN J X, HE S J, SHI C S et al. Optical design of connecting electrodes for tandem organic light-emitting diodes[J]. Optics Letters, 45, 3561-3564(2020).

[23] CHEN Shufen, ZHAO Zhenyuan, Zhonghai JIE et al. A green top-emitting organic light-emitting device with improved luminance and efficiency[J]. Journal of Physics D： Applied Physics, 39, 3738-3741(2006).

[24] CHEN Shufen, LI Xue, XIE Wenfa et al. Improved performances in a top-emitting green organic light-emitting device with light magnification[J]. Thin Solid Films, 516, 3364-3367(2008).

[25] WANG Qiang, DENG Zhaoqi, MA Dongge. Realization of high efficiency microcavity top-emitting organic light-emitting diodes with highly saturated colors and negligible angular dependence[J]. Applied Physics Letters, 94, 233306(2009).

[26] HOFMANN S, THOMSCHKE M, FREITAG P et al. Top-emitting organic light-emitting diodes： Influence of cavity design[J]. Applied Physics Letters, 97, 253308(2010).

[27] SONG Y H, PARK M J, PODE R et al. High efficiency top-emission organic light emitting diodes with second and third-order microcavity structure[J]. ECS Journal of Solid State Science and Technology, 5, R3131-R3137(2016).

[28] JI Wenyu, ZHANG Letian, ZHANG Tianyu et al. Top-emitting white organic light-emitting devices with a one-dimensional metallic-dielectric photonic crystal anode[J]. Optics Letters, 34, 2703-2705(2009).

[29] JUNG E, CHEA H et al. Effect of hole-transport-layer thickness on deep-blue emission in top-emitting cavity organic light-emitting diodes[J]. Electronic Materials Letters, 11, 764-768(2015).

[30] YANG Xiu, LI Weizhi, ZHONG Zhiyou等. Influence of thickness of hole transport layer on performance of OLED[J]. Journal of University of Electronic Science and Technology of China, 36, 958-961(2007).

[31] XU Weifeng, HONG Cyuntai, Chenkuan KUO. P‐186： reducing angular color shift in RGB OLEDs by the Introduction of a circular polarizer with a diffractive optical element[J]. SID International Symposium Digest of Technical Papers, 50, 1932-1934(2019).

[32] WU C, LIN C, HSIEH P et al. Methodology for optimizing viewing characteristics of top-emitting organic light-emitting devices[J]. Applied Physics Letters, 84, 3966-3968(2004).

[33] CHEN Shufen, XIE Wenfa, MENG Yanlong et al. Effect of 2，9-dimethyl-4，7-diphenyl-1，10-phenanthroline outcoupling layer on electroluminescent performances in top-emitting organic light-emitting devices[J]. Journal of Applied Physics, 103, 466(2008).