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硕士生导师

姓名:杨盛谊
所在学科:物理学院
职称:教授
联系电话:010-68918188 ,13520879277
E-mail:syyang@bit.edu.cn , yshengyi@gmail.com
通信地址:北京市海淀区中关村南大街5号,新葡萄京娱乐场8455,纳米光子学与超精密光电系统北京市重点实验室

个人简历

1995年9月-1998年3月,在北京工业大学激光技术实验室从事激光技术及其应用的研究,获得理学硕士学位;

1998年4月-2001年3月,在北京交通大学发光与光信息技术教育部重点实验室从事有机电致发光及平板显示技术的研究,获得工学博士学位;

2001年5月-2003年3月,在加拿大多伦多大学物理系做博士后研究,从事量子光学的理论和实验研究;

2003年4月-2009年7月,加入北京交通大学光电子技术研究所、发光与光信息技术教育部重点实验室,从事光电功能材料与器件方面的教学与科研工作;

2009年7月,人才引进到新葡萄京娱乐场8455纳米光子学材料与技术实验室、纳米光子学与超精密光电系统北京市重点实验室,从事纳米光子学材料与器件技术的研究;

2010年5月~2011年1月,在德国达姆斯达特工业大学做访问学者,从事新型发光晶体管的研究。

到目前为止,已在国内外著名期刊上发表了120多篇SCI学术论文。申请国家发明专利14项(其中七项已经授权)。2006年,入选教育部“新世纪优秀人才”支持计划和北京市“科技新星”计划。2010年,入选新葡萄京娱乐场8455“杰出中青年教师”支持计划。

工作经历

1995.09-1998.03,北京工业大学北京市激光技术实验室,硕士研究生;

1998.04-2001.03,北京交通大学光电子技术研究所,博士研究生;

2001.05-2003.03,多伦多大学物理系,博士后研究人员;

2003.04-2009.07,北京交通大学发光与光信息技术教育部重点实验室,副教授,博士生导师;

2009.07-至今,新葡萄京娱乐场8455纳米光子学与超精密光电系统北京市重点实验室,教授,博士生导师;

2010.05-2011.01 德国TU-Darmstadt材料科学研究所,访问学者。

科研方向

光电子材料与器件;纳米光子学材料与器件,特别是纳米材料在光电探测器、发光晶体管和太阳电池等光电器件中的应用基础研究。具体来说,研究领域主要包括以下三个方面:

(1)光电探测器(Photodetectors):基于纳米光子学材料(如纳米线和量子点)的红外、可见光及紫外光电探测器的应用基础研究;

(2)太阳电池(Solar cells):基于有机、无机光电功能材料及纳米光子学材料的新型太阳电池应用基础研究;

(3)发光二极管(Light-emitting diodes):基于有机、无机光电功能材料及纳米光电材料的新型发光二极管(LED)、发光晶体管(LET)的应用基础研究。

 

社会任职

中国感光学会影像信息功能材料与技术专业委员会委员,中国物理学会会员。

《Chinese Physics Letters》的特约审稿人,也是《Organic Electronics》、《Current Applied Physics》、《Electrochemical and Solid-State Letters》、《ACS Nano》、《Advanced Functional Materials》、《ECS Journal of Solid State Science and Technology》、《Energy and Environment Science》、《IEEE Photonics Technology Letters》、《Journal of Materials Chemistry C》、《RSC Advances》、《Journal of Alloys and Compounds》、《Nanoscale》、《Nanoscale Research Letters》、《ACS Applied Materials & Interfaces》、《ACS Omega》、《Small》、《Applied Surface Science》等五十多家国内外学术期刊的审稿人,国家自然科学基金评审专家、中国博士后科学基金评审专家和高等学校博士学科点专项科研基金评审专家。

 

获奖情况

2010年5月,入选新葡萄京娱乐场8455“杰出中青年教师”支持计划;

2006年12月,入选教育部“新世纪优秀人才支持计划”;

2006年9月,入选北京市“科技新星”计划;

2006年12月,第一届北京交通大学理学院贡献奖。

 

科研项目

[1] 国家重点研发计划项目“基于混合光子集成的近红外多波段探测芯片与器件研究/量子点红外探测器阵列 ”(SQ2019YFB220038/04),2019-2023,子课题负责人

[2] 新葡萄京娱乐场8455杰出中青年教师支持计划项目“基于胶体量子点的新型高探测率红外探测器”(BIT-JC-201005),2010-2013,课题负责人

[3] 国家自然科学基金项目“基于并五苯的新型光电场效应晶体管的研究”(60777025),2008-2010,项目负责人

[4] 教育部新世纪优秀人才支持项目“新型有机场效应晶体管”(NCET-06-0077),2007-2010,项目负责人

[5] 北京市自然科学基金项目“高亮度使用白光有机发光二极管”(2062019),2006-2008 项目负责人

[6] 国家自然科学基金项目“用有机/无机异质结提高II-VI族发光性能的研究”(60406006),2005-2007,课题负责人

[7] 北京市科技新星支持计划项目“有机/无机垂直构型场效应晶体管的研究”(2006B20),2006-2009,课题负责人

[8] 教育部留学回国人员启动基金“有机/无机异质结光电特性的研究”(527),2004-2006 ,课题负责人

[9] 国家自然科学基金重大项目“基于有机/无机复合发光器件的机理研究”(10434030),2005-2008,课题参与者。

学术成就

1.代表性论文

[1] Muhammad Sulaman, Yong Song*, Shengyi Yang*, Maoyuan Li, Muhammad Imran Saleem, Perumal Veeramalai Chandraseakar, Yurong Jiang, Yanyan Cui, Qun Hao, Bingsuo Zou, Interlayer of PMMA doped with Au nanoparticles for high-performance tandem photodetectors: A solution to suppress dark current and maintain high photocurrent, ACS Applied Materials & Interfaces , 2020, DOI: 10.1021/acsami.0c04093

《材料科学前沿》跟踪报道:https://mp.weixin.qq.com/s/lHGmM8r5zPhkQR9zWrWlsQ

分享网:https://www.91sh.cn/170398.html

新葡萄京娱乐场8455:/kxyj/kydt/180439.htm

[2] Muhammad Sulaman, Yong Song, Shengyi Yang*, Maoyuan Li, Muhammad Imran Saleem, Perumal Veeramalai Chandraseakar, Yurong Jiang, Yi Tang, Bingsuo Zou, “Ultra-sensitive solution-processed broadband photodetectors based on vertical field-effect transistor”, Nanotechnology , 31 (2020) 105203, DOI: 10.1088/1361-6528/ab5a26

[3] Chandrasekar Perumal Veeramalai, Shengyi Yang*, Ruonan Zhi, Muhammad Sulaman, Muhammad Imran Saleem, Yanyan Cui, Yi Tang, Yurong Jiang, Bingsuo Zou, “Solution-processed, self-powered broadband CH3NH3PbI3 photodetector driven by asymmetric electrode”, Advanced Optical Materials . (2020), 2000215 DOI:10.1002/adom.202000215

《材料科学前沿》跟踪报道:https://mp.weixin.qq.com/s/kZwNfVkeLH3Kx3vwkk-eHA

新葡萄京娱乐场8455:/kxyj/kydt/180439.htm

[4] Muhammad Imran Saleem, Shangyi Yang*, R Zhi, M Sulaman, P V Chandrasekar, Yurong Jiang, Yi Tang, Attia Batool, Bingsuo Zou, “Surface engineering of all-inorganic perovskite quantum dots with quasi-core/shell technique for high-performance photodetectors”, Advanced Materials Interfaces , (2020) 2000360, DOI:10.1002/admi.202000360.

[5] Muhammad Imran Saleem, Shangyi Yang*, R Zhi, M Sulaman, P V Chandrasekar, Yi Tang, Yurong Jiang, Attia Batool, Bingsuo Zou, “Self-powered, all-solution processed, trilayer heterojunction perovskite-based photodetectors”, Nanotechnology , 31 (2020) 254001, DOI: 10.1088/1361-6528/ab7de7

[6] Ruonan Zhi, Jinming Hu, Shengyi Yang*, Chandrasekar Perumal Veeramalai, Zhenheng Zhang, Muhammad Imran Saleem, Muhammad Sulaman, Yi Tang, Bingsuo Zou, “A facile method to synthesize two-dimensional CsPb2Br5 nano-/micro-sheets for high-performance solution-processed photodetectors”, Journal of Alloys and Compounds , 824 (2020) 153970, DOI: 10.1016/j.jallcom.2020. 153970

[7] Chandrasekar Perumal Veeramalai, Shengyi Yang*, Muhammad Sulaman, Ruonan Zhi, Muhammad Imran Saleem, Yi Tang, Yurong Jiang, Bingsuo Zou, “Porous single-wall carbon nanotube templates decorated with all-inorganic perovskite nanocrystals for ultra-flexible photodetectors”, ACS Applied Nano Materials , 3 (2020) 459-467, DOI: 10.1021/acsanm.9b02051

[8] Muhammad Imran Saleem, Shengyi Yang*, M Sulaman, J Hu, P V Chandrasekar, Y Shi, R Zhi, Attia Batool, Bingsuo Zou, “All-solution-processed UV-IR broadband trilayer photodetectors with CsPbBr3 colloidal nanocrystals as carriers-extracting layer”, Nanotechnology , 31 (2020) 165502, DOI:10.1088/1361-6528/ab667b

[9] Muhammad Imran Saleem, Shangyi Yang*, Attia Batool, Muhammad Sulaman, Perumal Veeramalai Chandrasekar, Yurong Jiang, Yi Tang, Yanyan Cui, Libin Tang, Bingsuo Zou CsPbI3 nanorods as the interfacial layer for high-performance, all-solution-processed self-powered photodetectors (submitted to Journal Material Science and Technology , Revision )

[10] Jinming Hu, Shengyi Yang*, Zhenheng Zhang, Hailong Li, Perumal Veeramalai Chandrasekar, Muhammad Sulaman, Muhammad Imran Saleem, Yi Tang, Yurong Jiang, Libin Tang and Bingsuo Zou, Solution-processed, flexible and broadband photodetector based on CsPbBr3/PbSe quantum dot heterostructures (submitted to Journal Material Science and Technology , in process )

[11] Haorong Zheng, Yurong Jiang, Shengyi Yang*, Yong Zhang, Xuefeng Yan, Jinming Hu, Yuansheng Shi, Bingsuo Zou, ZnO nanorods array as light absorption antenna for high-gain UV photodetectors, Journal of Alloys and Compounds , 812 (2020) 152158

[12] Jinming Hu, Yuansheng Shi, Zhenheng Zhang,  Ruonan Zhi,  Hailong Li, Yi Tang,  Shengyi Yang*,  and Bingsuo Zou, To enhance the performance of all-inorganic perovskite photodetectors via constructing both bilayer heterostructure and bipolar carrier transporting channels, Journal of Materials Chemistry C , 2019. doi: 10.1039/C9TC05318B

[13] Muhammad Sulaman, Yong Song, Shengyi Yang*, Qun Hao, Yuejin Zhao, Maoyuan Li, Muhammad Imran Saleem, Perumal Veeramalai Chandraseakar, Yurong Jiang, Yi Tang and Bingsuo Zou, High-performance solution-processed colloidal quantum dots-based tandem broadband photodetectors with dielectric interlayer, Nanotechnology , 30 (2019) 465203 (9pp). DOI:10.1088/1361-6528/ ab3b7a

[14] Perumal Veeramalai Chandrasekar, Shengyi Yang*, Jinming Hu, Muhammad Sulaman, Muhammad Imran Saleem, Yi Tang, Yurong Jiang and Bingsuo Zou, A one-step method to synthesize CH3NH3PbI3:MoS2 nanohybrids for high performance solution-processed photodetectors in the visible region, Nanotechnology, 30 (2019) 085707 (8pp)

[15] Jinming Hu, Yuansheng Shi, Zhenheng Zhang, Ruonan Zhi, Shengyi Yang*, and Bingsuo Zou, Recent progress of infrared photodetectors based on lead chalcogenide colloidal quantum dots, Chinese Physics B , 28(2) (2019) 020701. doi: 10.1088/1674-1056/28/2/020701.

[16] Lung-Chien Chen, Ching-Ho Tien, Zong-Liang Tseng, Yu-Shen Dong and Shengyi Yang, Influence of All-Inorganic Halide Perovskite CsPbBr3 Quantum Dots Combined with Polymer Matrix, Materials , 12 (2019) 985. doi: 10.3390/ ma12060985

[17] Perumal Veeramalai Chandrasekar, Shengyi Yang*, Jinming Hu, Muhammad Sulaman, Yuansheng Shi, Muhammad Imran Saleem, Yi Tang, Yurong Jiang and Bingsuo Zou, Solution-phase, template-free synthesis of PbI2 and MAPbI3 nano/microtubes for high-sensitivity photodetectors, Nanoscale , 11 (2019) 5188-5196.

[18] Yong Zhang, Shengyi Yang*, Yurong Jiang and Bingsuo Zou, Influence of contact resistance on the electrical characteristics of organic static induction transistors, Semiconductor Science and Technology , 34 (2019) 095022 (6pp)

[19] Junfeng Xu, Haowei Wang, Shengyi Yang*, Guoqiang Ni, Bingsuo Zou, High-sensitivity broadband colloidal quantum dot heterojunction photodetector for night-sky radiation, Journal of Alloys and Compounds , 764 (2018) 446-451.

[20] Yishan Wang, Shengyi Yang*, Qi Wang, Tage Ta, Yuansheng Shi, Jinming Hu, Haowei Wang, Bingsuo Zou, The role of surfactant-treated graphene oxide in polymer solar cells: Mobility study, Organic Electronics , 53 (2018) 303–307.

[21] Junfeng Xu, Haowei Wang, Yishan Wang, Shengyi Yang*, Guoqiang Ni, Bingsuo Zou, Efficiency enhancement for solution-processed PbS quantum dots solar cells by inserting graphene oxide as hole-transporting and interface modifying layer, Organic Electronics , 58 (2018) 270–275.

[22] Yishan Wang, Haowei Wang, Junfeng Xu, Bo He, Weile Li, Qi Wang, Shengyi Yang*, Bingsuo Zou, PEDOT:PSS Modification by Blending Graphene Oxide to Improve the Efficiency of Organic Solar Cells, POLYMER COMPOSITES , (2018) 3066-3072, DOI: 10.1022/pc

[23] Yuansheng Shi, Jinming Hu, Yurong Jiang, Muhammad Sulaman, Shengyi Yang*, Yi Tang, and Bingsuo Zou, Influence of the Post-Synthesis Annealing on Device Performance of PbS Quantum Dot Photoconductive Detectors, Physica Status Solidi A , (2018) 1800408 (8 pages)

[24] Lung-Chien Chen, Zong-Liang Tseng, Shih-You Chen, Shengyi Yang, An ultrasonic synthesis method for high-luminance perovskite quantum dots, Ceramics International , 43 (2017) 16032–16035.

[25] Yishan Wang, Shengyi Yang*, Haowei Wang, Li Zhang, Haijuan Cheng, Bo He, Weile Li, Bingsuo Zou, Surfactant-treated graphene oxide in organic solvents and its application in photovoltaic cells, Current Applied Physics , 17 (2017) 343-350.

[26] Bo He, Weile Li, Qi Wang, Liang Liang, Haowei Wang, Junfeng Xu, Shengyi Yang*, Yurong Jiang, Yi Tang, Bingsuo Zou, Ultrasensitive all-solution-processed field-effect transistor based perovskite photodetectors with sol-gel SiO2 as the dielectric layer, Journal of Alloys and Compounds , 717 (2017) 150-155.

[27] Lung-Chien Chen, Zong-Liang Tseng, Ting-Chun Hsu, Shengyi Yang, Yuan-Bin Chen, Mn2?xYx(MoO4)3 Phosphor Excited by UV GaN-Based Light-Emitting Diode for White Emission, Journal of Electronic Materials , 46 (2017) 2501. doi: 10.1007/s11664-017-5330-2

[28] Haowei Wang, Weile Li, Yueli Huang, Yishan Wang, Shengyi Yang, Bingsuo Zou, Efficiency enhancement of organic solar cells by inserting PbS quantum dots film as the infrared absorption layer, Materials Letters , 187 (2017) 136–139.

[29] Yishan Wang, Bo He, Haowei Wang, Junfeng Xu, Tage Ta, Weile Li, Qi Wang, Shengyi Yang*, Yi Tang, Bingsuo Zou, Transparent WO3/Ag/WO3 electrode for flexible organic solar cells, Materials Letters , 188 (2017) 107–110.

[30] Yiqun Zhao, Shengyi Yang*, Jinsong Zhao, Bingsuo Zou, PbS quantum dots based organic-inorganic hybrid infrared detecting and display devices, Materials Letters , 196 (2017) 176–178.

[31] Haowei Wang, Shengyi Yang*, Yishan Wang, Junfeng Xu, Yueli Huang, Weile Li, Bo He, Sulaman Muhammad, Yurong Jiang, Yi Tang, Bingsuo Zou, Influence of post-synthesis annealing on PbS quantum dot solar cells, Organic Electronics , 42 (2017) 309-315.

[32] Muhammad Sulaman, Shengyi Yang*, Yurong Jiang, Yi Tang and Bingsuo Zou, Enhanced performance of solutionprocessed broadband photodiodes by epitaxially blending MAPbBr3 quantum dots and ternary PbSxSe1-x quantum dots as the active layer, Nanotechnology , 28 (2017) 505501 (9pp).

[33] Haowei Wang, Yishan Wang, Bo He, Weile Li, Muhammad Sulaman, Junfeng Xu, Shengyi Yang*, Yi Tang, and Bingsuo Zou, Charge Carrier Conduction Mechanism in PbS Quantum Dot Solar Cells: Electrochemical Impedance Spectroscopy Study, ACS Applied Materials & Interfaces , 8 (2016) 18526?18533.

[34] Taojian Song, Haijuan Cheng, Chunjie Fu, Bo He, Weile Li, Junfeng Xu, Yi Tang, Shengyi Yang* and Bingsuo Zou, Influence of the active layer nanomorphology on device performance for ternary PbSxSe1?x quantum dots based solution-processed infrared photodetector, Nanotechnology , 27 (2016) 165202.

[35] Dan Yang, Shengyi Yang*, Li Zhang, Yishan Wang, Chunjie Fu, Taojian Song, Ruibin Liu, Bingsou Zou, Current saturation effect for pentacene-based static induction transistor under negative drain-source and gate voltages, Organic Electronics , 31 (2016) 273-277.

[36] Muhammad Sulaman, Shengyi Yang*, Arfan Bukhtiar, Chunjie Fu, Taojian Song, Haowei Wang, Yishan Wang, He Bo, Yi Tang and Bingsuo Zou, High performance solution-processed infrared photodetector based on PbSe quantum dots doped with low carrier mobility polymer poly(N-vinylcarbazole), RSC Advances , 6 (2016) 44514.

[37] Muhammad Sulaman, Shengyi Yang*, Taojian Song, Haowei Wang, Yishan Wang, Bo He, Miao Dong, Yi Tang, Yong Song and Bingsuo Zou, High performance solution-processed infrared photodiode based on ternary PbSxSe1-x colloidal quantum dots, RSC Advances , 6 (2016) 87730.

[38] Dan Yang, Li Zhang, Haowei Wang, Yishan Wang, Zhixiao Li, Taojian Song, Chunjie Fu, Shengyi Yang*, and Bingsuo Zou, Pentacene-based photodetector in visible region with vertical field-effect transistor configuration, IEEE Photonics Technology Letters , 27(3) (2015) 233-236.

[39] Haowei Wang, Zhixiao Li, Chunjie Fu, Dan Yang, Li Zhang, Shengyi Yang*, and Bingsuo Zou, Solution-processed PbSe colloidal quantum dot-based near-infrared photodetector, IEEE Photonics Technology Letters , 27(6) (2015) 612-615.

[40] Dan Yang, Li Zhang, Shengyi Yang*, Bingsuo Zou, Low-voltage pentacene photodetector based on a vertical transistor configuration, Acta Physica Sinica , 64 (2015) 108503.

[41] Zhixiao Li, Haowei Wang, Dan Yang, Li Zhang, Yishan Wang, Taojian Song, Chunjie Fu, Hongyu Zhang, Shengyi Yang*, Bingsuo Zou, Enhancement of the power conversion efficiency of polymer solar cells by incorporating PbSe quantum dots, Journal of Materials Science , 50(2) (2015) 840–847.

[42] Jingying Yan, Ting Ni, Fan Zou, Li Zhang, Dan Yang, Shengyi Yang*, Bingsuo Zou, Towards optimization of functionalized single-walled carbon nanotubes adhering with poly(3-hexylthiophene) for highly ef?cient polymer solar cells, Diamond & Related Materials , 41 (2014) 79–83.

[43] Shengyi Yang*, Peng Liu, Sanwei Guo, Li Zhang, Dan Yang, Yurong Jiang, and Bingsuo Zou, Negative differential resistance phenomena in colloidal quantum dots-based organic light-emitting diodes, Applied Physics Letters , 104 (2014) 033301-4.

[44] Ting Ni, Jingying Yan, Yurong Jiang, Fan Zou, Li Zhang, Dan Yang, Jinquan Wei, Shengyi Yang*, Bingsuo Zou, Enhancement of the power conversion ef?ciency of polymer solar cells by functionalized single-walled carbon nanotubes decorated with CdSe/ZnS core–shell colloidal quantum dots, Journal of Materials Science , 49 (2014) 2571–2577. 

[45] Ning Guo, Jinquan Wei, Yi Jia, Huanhuan Sun,Dan Yang, Shengyi Yang*, Yuhang Wang, Liuwan Zhang, Anyuan Cao, Hongwei Zhu, Kunlin Wang, Dehai Wu, Fabrication and Electrical Properties of Semi-Conductive h-BNCx Thin Films, Science of Advanced Materials , 6(3) (2014) 550-557.

[46] Huanhuan Sun, Jinquan Wei, Jialin Sun, Chuangang Ning, Jialin Zhu, Yi Jia, Shengyi Yang, Hongwei Zhu, Kunlin Wang, Dehai Wu, Yao Zhao, Robert Vajtai, Pulickel M Ajayan, Effect of microwave irradiation on carbon nanotube fibers: exfoliation, structural change and strong light emission, RSC Advances , 4(30) (2014) 15502-15506.

[47] Ting Ni, Fan Zou, Yurong Jiang, Shengyi Yang*, To improve the efficiency of bulk heterojunction solar cells by incorporating CdSe/ZnS quantum dots, Acta Physico-Chimica Sinica , 30 (3) (2014) 453-459.

[48] Dan Yang, Li Zhang, Shengyi Yang*, Bingsuo Zou, Influence of the dielectric PMMA layer on the detectivity of pentacene-based photodetector with field-effect transistor configuration in visible region, IEEE Photonics Journal , 5(6) (2013) 6801709-9.

[49] Shengyi Yang*, Bingsuo Zou, To observe bidirectional negative differential resistance at room temperature by narrowing transport channels for charge carriers in vertical organic light-emitting transistor, Organic Electronics , 14 (2013) 362–369. 

[50] Liqiang Chen, Shengyi Yang*, Zhinong Yu, Wei Xue, Bingsuo Zou, Photosensitive properties of IGZO thin-film field-effect transistors, Journal of Optoelectronics & Laser , 24(5) (2013) 843-848.

[51] Peng Liu, Yurong Jiang, Shengyi Yang*, Research Progresses of quantum dots-based white light-emitting diodes, Semiconductor Optoelectronics , 34(2) (2013) 163-170.

[52] Na Zhao, Shengyi Yang*, Li Zhang, Haizheng Zhong, Ruibin Liu, Bingsuo Zou, “Enhanced photocurrent in organic polymers-based photodiodes by blending PbS colloidal quantum dots”, Journal of Nanoscience and Nanotechnology , 13(2) (2013) 1163-1167.

[53] Shengyi Yang*, Na Zhao, Li Zhang, Haizheng Zhong, Ruibin Liu, Bingsuo Zou, “Field-effect transistor-based solution-processed colloidal quantum dot photodetector with broad bandwidth into near-infrared region”, Nanotechnology , 23 (2012) 255203.

[54] Lingchuan Meng, Zhidong Lou, Shengyi Yang, Yanbing Hou, Feng Teng, Xiaojun Liu, and Yunbai Li, “White organic light-emitting dio des based on a combined electromer and monomer emission in doubly-doped polymers”, Chinese Physics B , 21(8) (2012) 088504.

[55] Bingkun Chen, Haizheng Zhong, Wenqing Zhang, Zhan’ao Tan, Yongfang Li, Cairan Yu , Tianyou Zhai, Yoshio Bando, Shengyi Yang, and Bingsuo Zou, “Highly emissive and color-tunable CuInS2-based colloidal semiconductor nanocrystals: off-stoichiometry  effects and improved electroluminescence performance”, Advanced Functional Materials , 22 (2012) 2081-2088.

[56] L. C. Meng, Z. D. Lou, S.Y. Yang, Z. R. Deng, “Energy distribution in white organic light-emitting diodes with three primary color emitting layers”, Science China : Physics, Mechanics and Astronomy , 54(1) (2011) 84-88.

[57] G. Z. Dai, S. Y. Yang, M. Yan, Q. Wan, Q. L. Zhang, A. L. Pan, B. S. Zou, “Simple synthesis and growth mechanism of Core/Shell CdSe/SiOx nanowires”, Journal of Nanomaterials , 2010, Article ID 427689, 6 pages, 2010. doi:10.1155/2010/ 427689.

 

2.发明专利:

[1] 杨盛谊,“颜色稳定的有机-无机异质结白色电致发光器件及制备方法” (国家发明专利,ZL 200610002635.0,授权公告日2008.12.31)

[2] 杨盛谊,娄志东,邓振波,“垂直构型有机/无机场效应发光管及其制备方法”(国家发明专利,ZL 200710100155.2,授权公告日2010.2.10)

[3] 杨盛谊,娄志东,邓振波,侯延冰,“双面透光的全有机场效应光电晶体管及其制备方法”(国家发明专利,ZL 200710118279.3,授权公告日2009.7.8)

[4] 杨盛谊,娄志东,邓振波,“基于并五苯的垂直构型有机场效应光电晶体管及其制备方法”(国家发明专利,ZL 200710118280.6,授权公告日2010.9.29)

[5] 杨盛谊,姜明宵,孟令川,娄志东,“一种基于TAPC为发光层的白光器件及其制备方法”(国家发明专利,ZL 200910080538.7,授权公告日2011.3.16)

[6] 杨盛谊,赵娜,邹炳锁,“一种基于胶体量子点的红外光电探测器及其制备方法”(国家发明专利,ZL 201010539485.3,授权公告日2012.2.29)

[7] 杨盛谊,赵娜,张丽,邹炳锁,“一种基于胶体量子点及石墨烯为光阳极的太阳电池及其制备方法”(国家发明专利,ZL 201110237982.2,授权公告日2013.4.24)

[8] 杨盛谊,娄志东,杜文树,齐杰茹,邓振波,“底端为源极的垂直构型场效应发光管及其制备方法”(国家发明专利,申请号:200710100157.1)

[9] 杨盛谊,赵娜,张丽,邹炳锁,“一种基于胶体量子点及石墨烯为光电极的光电探测器及其制备方法”(国家发明专利,申请号:201110237300.8)

[10] 杨盛谊,邓召儒,孟令川,娄志东,“基于超薄有机层的颜色稳定的白光器件及其制备方法”(国家发明专利,申请号:200710122009.X)

[11] 杨盛谊,邹炳锁,“一种共振隧穿有机发光二极管及其制备方法”(国家发明专利,申请号:201110302951.0)

[12] 宋勇,赵宇飞,杨盛谊,韩劭纯,“一种基于量子点发光探测器的电视型红外成像芯片”(国家发明专利,申请号:201610262272.8)

[13] 赵逸群,杨盛谊,赵劲松,程海娟,“一种基于量子点红外探测与显示器件及其制备方法”(国家发明专利,申请号:201610371315.6)

[14] 常军,谢桂娟, 周继德,张柯,杨盛谊,“大视场离轴反射变焦光学系统”(国家发明专利,申请号:CN201510151888.3)

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