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彭应全
2023-05-16 12:50
  • 彭应全
  • 彭应全 - 教授-中国计量大学-光学与电子科技学院-个人资料

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资料介绍

个人简历


彭应全,理学博士(德国洪堡大学),工学硕士(德国洪堡大学),浙江省钱江学者特聘教授。\r
1985年6月毕业于兰州大学物理系。1985年8月通过教育部组织的全国丁肇中项目公派出国研究生考试,并于次年去德国柏林攻读博士学位。1992年3月获德国洪堡大学电子学硕士学位(Dipl. Ing.);7月获得洪堡大学理学博士学位。在德国期间,曾以访问学者的身份去位于瑞士进行了为期一年的合作研究工作。1992年9月回国,在兰州大学物理系工作。主要从事微电子学与固体电子学(方向:光电子器件与材料)方面的研究及相关教学工作。2010-2011年在德国Kassel大学从事有机激光器方面的访问研究。参加国家自然科学基金项目多项,主持过国家自然科学基金项目、回国人员留学基金和教育部博士点基金;主持科技部中国-斯洛伐克政府间合作项目和中国-俄罗斯政府间合作项目各一项。先后在Organic Electronics, Applied Physics Letters, IEEE Transactions on Electron Devices, IEEE Photonic Technology Letters 等国际国内权威学术期刊上发表论文60余篇。获得发明和实用新型专利授权8项。目前的研究项目主要集中在微电子器件与集成系统,微电子器件测量系统和半导体器件分析软件。先后参加并完成了电子部46所创新基金、教育部博士点基金、国家自然科学基金、甘肃省自然科学基金以及兰州市科技项目、科技部中国-俄罗斯政府间合作项目、科技部中国-斯洛伐克政府间合作项目等横向项目。现为中国计量大学微电子学科负责人,主要从事光敏二极管、光敏场效应等器件的制备和性能研究。现有多项发明专利授权,发表SCI论文多篇。 \r
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在研课题\r
国家重点研发计划:柔性显示屏拉伸和准静态压力特性及其检测装置研发课题编号:2016YFF0203605,37万;\r
大面积OLED关键制造技术与分析软件研究;\r
柔性光电子器件及封装技术研究;\r
微电子器件自动检测技术;\r
新型光敏二极管与光敏三极管研究。\r
获奖情况\r
题目为《有机电致发光器件物理学及相关材料的研究》获甘肃省高校科技进步三等奖\r
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主持完成的科研项目\r
(1)有机半导体器件自动测试系统产业化,兰州市科技项目,15万,项目号:2013-4-124,执行期限:2013.07-2016.07\r
(2)有机光敏场效应管和太阳能电池的掺杂效应研究,科技部中国-俄罗斯政府间合作项目,项目号:CR17-10,约12万,执行期限:2014.1-2015.6

研究领域


""研究方向:\r
微电子器件""""

近期论文


1发表论文\r
2019\r
(9) Yingquan Peng*, Xinyong Dong, Springer Singapore, Lecture Notes in Electrical Engineering 567, Series ID 7818 ISBN: 978-981-13-8594-0, Book ID 477578_1_En, DOI 10.1007/978-981-13-8595-7 \r
Proceedings of 2018 International Conference on Optoelectronics and Measurement\r
(8) Chen Liu, Junkang Zhong, Xinda Chen, and Yingquan Peng*, Lecture Notes in Electrical Engineering 567, Y. Peng and X. Dong (eds.), Proceedings of 2018 International Conference on Optoelectronics and Measurement, doi.org/10.1007/978-981-13-8595-7_21\r
Size Dependent Performances of Organic Photodiode Arrays\r
(7) Qinyong Dai, Wenli Lv, Yingquan Peng*, Wenli Lv, Sunan Xu, Yi Wei, Lei Sun, and Ying Wang, Lecture Notes in Electrical Engineering 567, Y. Peng and X. Dong (eds.), Proceedings of 2018 International Conference on Optoelectronics and Measurement, doi.org/10.1007/978-981-13-8595-7_22\r
High Photosensitivity Near-Infrared PhOFETs Based on PbPc:C60 Bulk Heterojunction\r
(6) Guangmeng Liao, Kun Xu, Feiyu Zhao, Fobao Huang, Yuanlong Liang, Lan He, Yingquan Peng*, and Rongzheng Ding, Lecture Notes in Electrical Engineering 567, Y. Peng and X. Dong (eds.), Proceedings of 2018 International Conference on Optoelectronics and Measurement, doi.org/10.1007/978-981-13-8595-7_24\r
Channel-Length-Dependent Performances of Planar Photodiodes Based on Perovskite\r
(5) Xinda Chena, Ziqiang Xu, Yingquan Peng*, Wenli Lv, Rongzheng Ding, Sunan Xu, Lei Sun, Infrared Physics and Technology, 102,103001 (2019) \r
Enhanced performance of near infrared and broad spectral response organic photodiodes exploiting NPB as electron blocking layer\r
(4) Chen Liu, Sihan Ding, Yingquan Peng*, Bo Yao, Lei Sun, Sunan Xu, Qinyong Dai and Zhongwei Zhou, Semiconductor Science and Technology, Volume 34, 075034 (2019)\r
Effects of the carrier transport layer thickness on the bending durability of flexible OLEDs\r
(3) Fobao Huang, Yingquan Peng*, Guohan Liu, Journal of Physical Chemistry C, 123, 17, 11073-11080 (2019) \r
Towards ultrahigh sensitivity and UV-Vis-NIR broadband response of organolead halide perovskite/tin-phthalocyanine heterostructured photodetectors\r
(2) Yingquan Peng*, Fangzhi Guo, Hongquan Xia, Wenli Lv, Lei Sun, Sunan Xu, Huabiao Zhu, Xinda Chen, Chen Liu, Ying Wang, and Feiping Lu, Applied Optics Vol. 58, Issue 6, pp. 1319-1326 (2019)\r
Channel length dependent performances of photosensitive organic field-effect transistors\r
(1) Rongzheng Ding, Ziqiang Xu, Tingcai Zheng, Fobao Huang, Yingquan Peng*, Wenli Lv1, Yuhuan Yang, Ying Wang, Sunan Xu, Lei Sun, Journal of Materials Science, 54(4), 3187–3195(2019) \r
Realizing high-responsive superlattice organic photodiodes by C60 and zinc phthalocyanine\r
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2018\r
(7) Feiyu Zhao, Kun Xu, Xiao Luo, Yuanlong Liang, Yingquan Peng*, Feiping Lu, Adv. Optical Mater., 6 (1), 1700509 (2018) (LZU) \r
Toward high uniformity of photoresponse broadband hybrid organic-inorganic photodiode based on PVP modified perovskite\r
(6) Xiao Luo, Feiyu Zhao, Yuanlong Liang, Lili Du, Wenli Lv, Kun Xu, Ying Wang, and Yingquan Peng*, Advanced Optical Materials, 6 (23), December 3, (2018) 1800996(1-8) \r
Facile Nanogold-Perovskite Enabling Ultrasensitive Flexible Broadband Photodetector with pW Scale Detection Limit\r
(5) Yingquan Peng*, Rongzheng Ding, Qiang Ren, Sunan Xu, Lei Sun, Ying Wang, Feiping Lu, Applied Surface Science, 459, 179-184 (2018)\r
 High performance photodiode based on MoS2/pentacene heterojunction \r
(4) Fobao Huang, Xin Wang, Kun Xu, Yuanlong Liang, Yingquan Peng*, Guohan Liu*, J. Mater. Chem. C, 6, 8804-8811 (2018) \r
Broadband organic phototransistor with high photoresponse from ultraviolet to near-infrared realized via synergistic effect of trilayer heterostructure\r
(3) Xiao Luo, Lili Du, Yuanlong Liang, Feiyu Zhao, Wenli Lv, Kun Xu, Ying Wang, Yingquan Peng*, ACS Applied Materials & Interfaces, 10 (18), 15352-15356 (2018) \r
Achieving ultra-weak light response with plasmonic nanogold decorated organic phototransistors\r
(2) Sunan Xu, Hongquan Xia, Yuhuan Yang, Fangzhi Guo, Wenli Lv, Yingquan Peng*, Yi Wei, Xiao Luo, Ying Wang, Zouyu Yang, Ying Tang and Lei Sun, Optical Materials Express: 8 (4), 901 (2018) \r
Effects of source/drain electrode contact length on the photorspoensitive properties of organic field-effect transistors\r
(1) Yuanlong Liang, Wenli Lv, Xiao Luo, Lan He, Kun Xu, Feiyu Zhao, Fobao Huang, Feiping Lu, Yingquan Peng*, Synth. Met. , 240, 44-51 (2018) \r
A comprehensive investigation of organic active layer structures toward high performance near-infrared phototransistors\r
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2017\r
(10) Fobao Huang, Yao Li, Kun Xu, Xiao Luo, Feiyu Zhao, Hongquan Xia, Lili Du, Yuanlong Liang, Wenli Lv, Sunan Xu, Yingquan Peng*, Ying Wang, Guohan Liu, Synthetic Metals, 23,100-105 (2017)\r
Improved performance of lead phthalocyanine phototransistor by template inducing effect based on optimized-thickness copper phthalocyanine layers\r
(8) Lan He, Guoying Fan, Yao Li, Wenli Lv, Yi Wei, Yingquan Peng*, Chinese J. of Luminescence, (2017)\r
Numerical model for organic field-effect transistors with non-linear charge injection\r
(7) Qiang Ren, Qingsheng Xu, Hongquan Xia, Xiao Luo, Feiyu Zhao, Lei Sun, Yao Li, Wenli Lv, Lili Du, Yingquan Peng*, Zhong Zhao, Org. Electron. 51, 142-148 (2017) \r
High Performance Photoresponsive Field-Effect Transistors Based On MoS2/Pentacene Heterojunction\r
(6) Fobao Huang, Yingquan Peng*, Kun Xu, Wenli Lv, Sunan Xu, Ying Wang, Ying Tang, Yi Wei, Yuhuan Yang, and Guohan Liu, J. Phys. D., 50 (2017) 205106 \r
Simultaneous determination of built-in voltage and charge carrier mobility in organic diodes from light intensity dependent current-voltage characteristics\r
(5) Fobao Huang,Yao Li,Hongquan Xia, Jianping Zhang, Kun Xu, Yingquan Peng*, Guohan Liu, Carbon, 118, 666–674 (2017) \r
Towards high performance broad spectral response fullerene based photosensitive organic field effect transistors with tricomponent bulk heterojunctions\r
(4) Feiyu Zhao, Kun Xu, Xiao Luo, Wenli Lv, Yingquan Peng*, Ying Wang, Feiping Lu, Organic Electronics, 46, 35–43 (2017) \r
Ultrasensitivity broadband photodetectors based on perovskite: research on film crystallization and electrode optimization\r
(3) Xiao Luo, Yingquan Peng*, Feiyu Zhao, Lili Du, Wenli Lv, Kun Xu, Ying Wang, and Feiping Lu, npj Flexible Electronics, 1, Article number: 6, 1 (2017), accepted (CJLU) doi:10.1038/s41528-017-0005-x\r
Ultrasensitive flexible broadband photodetectors achieving pA scale dark current \r
(2) Yingquan Peng*, Sihan Ding, Zhanwei Wen, Sunan Xu, Wenli Lv, Ziqiang Xu,  Yuhuan Yang, Ying Wang, Yi Wei, Ying Tang, Appl. Phys. A, 123,178 (2017) \r
Thin film encapsulation of organic electronic devices based on vacuum evaporated lithium fluoride as protective buffer layer\r
(1) Yingquan Peng*, Fobao Huang, Jianping Zhang, Xiao Luo, Kun Xu, Wenli Lv, Sunan Xu, Ying Wang, Ying Tang, Yi Wei, Ziqiang Xu, Yuhuan Yang, Feiping Lu, Organic Electronics, 43, 27–32 (2017) \r
Broad spectral response photosensitive organic field-effect transistors realized by the hybrid planar-bulk heterojunction composed of three molecules with complementary optical absorption\r
2016\r
(1)[16-2] Junkang Zhong, YingquanPeng, Tingcai Zheng, Wenli Lv, Qiang Ren, Fobao Huang, Ying Wang, Zhen Chen, Ying Tang, Journal of Nanoscience and Nanotechnology, Vol. 16(6), 5782-5786 (2016) (SCI 3区) IF=1.354\r
High performance photodiode based on p-Si/copper phthalocyanine heterojunction\r
(2)[16-3] Xiao Luo, Zhanwei Wen, Lili Du, Wenli Lv, Feiyu Zhao, Ying Tang, Zhen Chen and Yingquan Peng, J. Nanoscience and Nanotechnology, Vol. 16(6), 707-5713 (2016) (SCI 3区)\r
Notably improved red photoresponse of organic diode employing gold nanoparticles plasmonic absorption\r
(3) [16-1] Lili Du, Xiao Luo, Feiyu Zhao, Wenli Lv, Jianping Zhang, Yingquan, Peng, Ying Tang, Ying Wang, Carbon, 96, 685–694 (2016) (SCI 1区) (被引次数:7)\r
Toward facile broadband high photoresponse of an all-organic heterojunction phototransistor from the ultraviolet to the near-infrared region\r
(4) [16-4]Lei Sun, Yao Li, Qiang Ren, Wenli Lv, Jianping Zhang, Xiao Luo, Feiyu Zhao, Zhen Chen, Zhanwei Wen, Junkang Zhong, Yingquan Peng, and Xingyuan Liu, IEEE Transactions on Electron Devices, 63(1), 452-458 (2016) (被引次数:5)\r
Towards ultrahigh red light responsive organic FETs utilizing neodymium phthalocyanine as light sensitive material\r
(5) [16-5] Yong Zhang, Long-Zhen Xie, Chao-Xin Yuan, Chun-Lin Zhang, Su Liu, Ying-Quan Peng, Hai-Rong Li, and Miao Zhang, NANO: Brief Reports and Reviews, Vol. 11, No. 1 (2016) 1650009 (被引次数:1)\r
A ppb-Level Formaldehyde Gas Sensor Based on Rose-Like Nickel Oxide Nanoparticles Prepared Using Electrodeposition Process\r
(6)[16-6] Feiyu Zhao, Xiao Luo, Jinfeng Liu, Lili Du, WenLi Lv, Lei Sun, Yao Li, Ying Wang, and Yingquan Peng, J. Mater. Chem. C, 4,815-822(2016) (被引次数:4)\r
Toward high performance broad spectral hybrid organic-inorganic photodiodes based on multiple component organic bulk heterojunctions \r
(7)[16-7]Yong Zhang, Long-zhen Xie, Chao-xin Yuan, Chun-lin Zhang, Su Liu, Ying-quan Peng, Hai-rong Li, Miao Zhang, Journal of Materials Science: Materials in Electronics,  27(2), 1817 (2016) (被引次数:1)\r
Preparation of 3D rose-like nickel oxide nanoparticles by electrodeposition method and application in gas sensors\r
(8) [16-8] Wenli Lv,Junkang Zhong, Yingquan Peng, Yao Li, Xiao Luo, Lei Sun, Jianping Zhang, Feiyu Zhao, Ying Tang, Ying Wang, Organic Electronics, 31, 258-265 (2016) (被引次数:2)\r
Organic near-infrared upconversion devices: design principles and operation mechanisms\r
(9) [16-9] Lili Du1,+, Xiao Luo1,+, Wenli Lv1, Feiyu Zhao1, Yingquan Peng1,2,* , Ying Tang2 and Ying Wang, Physical Chemistry Chemical Physics, 18, 13108-13117 (2016) (被引次数:1)IF=4.04 (2区)\r
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Universal and ingenious design of organic broadband photomemory\r
(10) [16-10] Xiao Luo, Wenli Lv, Lili Du, Feiyu Zhao, Yingquan Peng*, Ying Tang, and Ying Wang, Phys. Status Solidi RRL 10, No. 6, 485–492 (2016) (被引次数:1)\r
Insight into trap state dynamics for exploiting current multiplication in organic photodetectors\r
(11) [16-11] Jianping Zhang, Yao Li, Yu Tang, Xiao Luo, Lei Sun, Feiyu Zhao, Junkang Zhong, Yingquan Peng, Synthetic Metals, 218 (2016) 27–33 (被引次数:1)\r
Airstable near-infrared sensitive organic field-effect transistors utilizing erbium phthalocyanine as photosensitive layer\r
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2授权发明专利\r
(3)彭应全, 梁园龙, 赵飞宇, 专利号: ZL 201510970565.7\r
一种有机混合薄膜宽光谱有机-无机光敏二极管,\r
(2) 彭应全,丁思晗,温占伟,吕文理,王颖,专利号,ZL 2016 1 0021166.0 \r
一种基于氟化锂/聚乙烯醇交替薄膜的有机半导体器件薄膜封装技术\r
公开(公告)号 : CN105514274A;公开(公告)日 : 2016.04.20\r
(1) 彭应全, 杨玉环, 温占伟, 吕文理,王颖,专利号,ZL 2016 1 0020610.7\r
一种基于氟化锂缓冲层的光敏有机场效应管薄膜封装技术

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