3044永利

田朋飞，3044永利副教授、博士生导师、卓博导师。华中科技大学学士（2007）、北京大学硕士（2010）、英国思克莱德大学博士（Strathclyde 2014）。OPTICA高级会员。长期致力于氮化镓基micro-LED研究，师从micro-LED先驱Martin Dawson（英国皇家学会和爱丁堡皇家学会Fellow），为国内最早开展micro-LED研究的科研人员之一。自2007年至今从事micro-LED显示、micro-LED光通信等方向的研究。主持国家重点研发计划国际合作项目、国家自然科学基金面上项目和青年项目、上海市青年科技英才扬帆计划、3044永利“卓越2025”人才培育计划等。

在Advanced Optical Materials, ACS Photonics, Progress in Quantum Electronics, Photonics Research, Optics Letters, Journal of Lightwave Technology, IEEE Electron Device Letters, Applied Physics Letters等发表90余篇SCI论文。以第一和通信作者发表SCI论文50余篇，其中2篇ESI高被引论文、3篇邀请SCI综述、3篇期刊Top cited和Top downloaded论文；发表会议论文/报告60余篇，其中邀请报告10余次；出版5部专著；授权发明专利10余项；主导2项团体标准制定；实现光通信在电磁敏感等场合的应用示范。

Google Scholar引用2500余次，H因子27。研究成果被Progress in Quantum Electronics期刊、Semiconductor Today、Laser Focus World、国家自然科学基金委等国内外机构报道。

主要研究方向

§   立足第三代半导体micro-LED器件核心技术，开拓micro-LED器件工艺、转移打印、封装技术

§   开展micro-LED在显示、光通信、引力波探测、机器学习、脑机接口等领域的系统集成交叉学科创新研究

先进性举例

代表性项目 

§  科技部项目，重点研发计划政府间国际科技创新合作项目，基于高带宽氮化镓光电器件阵列和高频谱效率调制方式的超高速可见光通信，2021/7-2024/6， 346万元，在研，主持

§  国家自然科学基金面上项目，61974031，钙钛矿量子点调控全彩色快响应氮化镓基micro-LED显示研究，2020/1-2023/12，63万元，在研，主持

§  上海市2021年度“科技创新行动计划”高新技术领域项目，课题“Micro-LED芯片发光效率仿真、制备和应用研究”负责人，2021/9-2023/8，40万元，在研

课题组人员

§  教授和副教授3名，博士和硕士生10余名

§  每年招收博士研究生（物理电子学 科博、电子科学与技术 卓博、电子信息 工博）、科硕（物理电子学、光电系统与控制技术）、工硕（电子信息）多名，欢迎半导体、光电、电子工程、通信等学科背景的同学加入课题组

§  长期招聘博士后、专任研究员

学生获奖

§  3044永利学术之星、上海市优秀学生、3044永利优秀学生、国家奖学金

研究生获奖短视频

§  TCL华星科研Vlog大赛冠军：点击Micro-LED技术获奖视频

毕业学生去向

§  高校教师、华为、中兴、商飞、EMC、天马微电子

更多信息请关注课题组微信公众号：gh_042f6e23da90

Nature, Nature Electronics, ACS photonics, Photonics Research, Optics Letters, Optics Express, Applied Physics Letters, IEEE Electron Device Letters等审稿人

主导船舶照明与可见光通信2项标准的制定

美国光学学会高级会员OPTICA Senior Member、IEEE Member、SPIE Member

“Outstanding Reviewer” Award Winner，IOP Publishing，2020

教育经历                              

博士(物理), 英国思克莱德（Strathclyde）大学，2014

硕士(物理), 北京大学, 2010

学士(物理), 华中科技大学,  2007

工作经历                              

副研究员，3044永利，2018至今

副研究员（Tenure track），3044永利, 2015-2018

博士后, 英国思克莱德（Strathclyde）大学, 2014

主讲本科生课程：固态照明器件基。2学分）；

主讲研究生课程：半导体器件物理（3学分、必修）、宽禁带半导体器件及应用（2学分）。

代表性专著Books/Chapters (selected)

[1]      田朋飞著，Micro-LED显示技术 ，上海交通大学出版社，2021（30万字）。Pengfei Tian, Micro-LED Display Technologies, 2021 (300 thousand Chinese words). ISBN：978-7-313-24846-6

[2]      P. Tian, J. J. D. McKendry, J. Herrnsdorf, S. Zhu, E. Gu, N. Laurand, M. D. Dawson, book series “Semiconductors and Semimetals”, Micro-LED (Chapter: Micro-LED based wireless systems), Volume 106, Pages 281-321, Elsevier, 2021. 0080-8784 ISSN

代表性论文 Publications-Journal (selected)

[3]      Shijie Zhu, Xinyi Shan, Runze Lin, Pengjiang Qiu, Zhou Wang, Xinyi Lu, Lintao Yan, Xugao Cui, Guoqi Zhang, and Pengfei Tian*, Characteristics of GaN-on-Si green micro-LED for wide color gamut display and high-speed visible light communication, ACS Photonics, DOI: 10.1021/acsphotonics.2c01028 (2023).

[4]      Xinyi Shan, Shijie Zhu, Runze Lin, Yanzhe Li, Zhou Wang, Zeyuan Qian, Xugao Cui, Ran Liu, and Pengfei Tian?, Improvements of modulation bandwidth and data rate of green-emitting CsPbBr₃ perovskite quantum dots for Gbps visible light communication, Optics Express, 31(2): 2195-2207 (2023).

[5]      Xinyi Shan, Guobin Wang, Shijie Zhu, Pengjiang Qiu, Runze Lin, Zhou Wang, Zexing Yuan, Qi-ang Yan, Xugao Cui, Jianfeng Wang, Ran Liu, Ke Xu,? and Pengfei Tian?, Comparison of beyond 1 GHz c-plane freestanding and sapphire-substrate GaN-based micro-LED for high-speed visible light communication, Journal of Lightwave Technology, DOI: 10.1109/JLT.2022.3224612 (2023).

[6]      Zhou Wang#, Zuxin Jin#, Runze Lin, Shijie Zhu, Xinyi Shan, Grzegorz Stepniak, Xugao Cui*, and Pengfei Tian*, Vertical stack integration of blue and yellow InGaN micro-LED arrays for display and wavelength division multiplexing VLC applications, Optics Express, 30(24), 44260-44269 (2022).

[7]      Xiaoyan Liu, Yijie Wang, Yu Wang, Yize Zhao, Jinghao Yu, Xinyi Shan, Yi Tong*, Xiaojuan Lian, Xiang Wan, Lei Wang*, Pengfei Tian*, and Hao-Chung Kuo*, Recent advances in perovskites-based optoelectronics, Nanotechnology Reviews, 11: 3063–3094 (2022).

[8]      Zhou Wang, Shijie Zhu, Xinyi Shan, Zexing Yuan, Zeyuan Qian, Xinyi Lu, Yi Fu, Kui Tu, Hui Guan, Xugao Cui*, and Pengfei Tian*, Red green and blue InGaN micro LEDs for display application temperature and current density effects, Optics Express, 30(20): 36403-36413. (2022).

[9]      Shijie Zhu, Xinyi Shan, Pengjiang Qiu, Zhou Wang, Zexing Yuan, Xugao Cui, Guoqi Zhang, and Pengfei Tian*, Low-power high-bandwidth non-polar InGaN micro-LEDs at low current densities for energy-efficient visible light communication, IEEE Photonics Journal, 14(5), 7351805 (2022).

[10]  Zeyuan Qian#, Dong Li#, Fangchen Hu, Pengjiang Qiu, Chicheng Ma, Chao Shen, Shanduan Zhang, Nan Chi*, Xugao Cui* and Pengfei Tian*, Size-dependent UV-C communication performance of AlGaN micro-LEDs and LEDs, Journal of Lightwave Technology, 40(22), 7289-7296 (2022).

[11]  Zhen Huang, Renchun Tao*, Duo Li, Zhiwei Rao, Zexing Yuan, Tai Li, Zhaoying Chen, Ye Yuan, Junjie Kang, Zhiwen Liang, Qi Wang, Pengfei Tian*, Bo Shen, and Xinqiang Wang, Transmission data rate improvement by InGaN barriers in GaN-based blue micro-LEDs for visible light communication, Optics Letters, 47(16): 4235-4238. (2022).

[12]  Xinyi Lu, Shijie Zhu, Runze Lin, Di Sun, Xugao Cui, and Pengfei Tian*, Performance improvement of red InGaN micro-LEDs by transfer printing from Si substrate onto glass substrate, IEEE Electron Device Letters, 43(9): 1491-1494 (2022).

[13]  Shijie Zhu, Pengjiang Qiu, Xinyi Shan, Runze Lin, Zhou Wang, Zuxin Jin, Xugao Cui, Guoqi Zhang and Pengfei Tian*, High-speed long-distance visible light communication based on multicolor series connection micro-LEDs and wavelength division multiplexing, Photonics Research, 10(8), 1892-1899 (2022).

[14]  Runze Lin, Zuxin Jin, Pengjiang Qiu, Yue Liao, Jason Hoo, Shiping Guo, Xugao Cui, and Pengfei Tian*, High bandwidth series-biased green micro-LED array toward 6 Gbps visible light communication, Optics Letters, 47(13), 3343-3346 (2022).

[15]  Guoqiang Li,? Runze Lin,? Haichao Guo, Pengfei Tian*, and Nan Chi*, Visible light communication system at 3.59 Gbit/s based on c-plane green micro-LED, Chinese Optics Letters, 20(11), 110602 (2022).

[16]  Yupeng Wang, Wenjie Jiang, Honglan Chen, Xinwei Chen, Yuan Gao, Pengfei Tian*, and Baoqing Sun*, Ultra-high frequency signal transmission based on temporal ghost imaging, Journal of Lightwave Technology, 40(16): 5426-5431 (2022).

[17]  Zexing Yuan, Yanzhe Li, Xinyu Lu, Zhou Wang, Pengjiang Qiu, Xugao Cui, Pengfei Tian*, Qi Wang*, and Guoyi Zhang, Investigation of modulation bandwidth of InGaN green micro-LEDs by varying quantum barrier thickness, IEEE Transactions on Electron Devices, 69(8), 4298-4305 (2022).

[18]  Feifan Xu, Zuxin Jin, Tao Tao*, Pengfei Tian*, Guobin Wang, Xiaoyan Liu, Ting Zhi, Qi-ang Yan, Danfeng Pan, Zili Xie, Ke Xu, Bin Liu,* and Rong Zhang, C-plane blue micro-LED with 1.53 GHz bandwidth for high-speed visible light communication, IEEE Electron Device Letters, 43(6),910-913 (2022).

[19]  Xiaoyan Liu, Zexing Yuan, Gufan Zhou, Pan Yin, Xinyi Shan, Langyi Tao, Jinghao Yu, Xugao Cui*, and Pengfei Tian*, Improving the efficiency of micro-LEDs at high current densities employing a micro-current spreading layer confined structure, Applied Physics B, 128, 121 (2022).

[20]  Shijie Zhu, Pengjiang Qiu, Xinyi Shan, Zhou Wang, Runze Lin, Xugao Cui, Guoqi Zhang, and Pengfei Tian*, Micro-LED based double-sided emission display and cross-medium communication, IEEE Photonics Journal, 14(3), 7326705 (2022).

[21]  Pengfei Tian#,*, Xinyi Shan#, Shijie Zhu#, Enyuan Xie, Jonathan J.D. McKendry, Erdan Gu*, and Martin D. Dawson, AlGaN ultraviolet micro-LEDs, IEEE Journal of Quantum Electronics, 58(4),3300214 (2022). Invited Paper

[22]  Xiaoyan Liu, Langyi Tao, Shiliang Mei, Zhongjie Cui, Daqi Shen, Zhengxuan Sheng, Jinghao Yu, Pengfei Ye, Ting Zhi, Tao Tao, Lei Wang,* Ruiqian Guo,* and Pengfei Tian,* White-light GaN-μLEDs employing green/red perovskite quantum dots as color converters for visible light communication, Nanomaterials, 12(4), 627 (2022).

[23]  Zeyuan Qian?, Shijie Zhu?, Xinyi Shan, Pan Yin, Zexing Yuan, Pengjiang Qiu, Zhou Wang, Xugao Cui* and Pengfei Tian*, Analysis on efficiency improvement of 273 nm AlGaN UV-C micro-LEDs, Journal of Physics D: Applied Physics, 55, 195104 (2022).

[24]  Xinwei Chen, Mengyin Jin, Runze Lin, Gufan Zhou, Xugao Cui, and Pengfei Tian*, Visible light communication based on computational temporal ghost imaging and micro-LED-based detector, Optics and Lasers in Engineering, 152, 106956 (2022).

[25]  Pengjiang Qiu, Shijie Zhu, Zuxin Jin, Xiaolin Zhou, Xugao Cui, and Pengfei Tian*, Beyond 25 Gbps optical wireless communication using wavelength division multiplexed LEDs and micro-LEDs, Optics Letters, 47(2), 317-320 (2022).

[26]  Xinyi Shan, Shijie Zhu, Pengjiang Qiu, Zeyuan Qian, Runze Lin, Zhou Wang, Xugao Cui, Ran Liu, and Pengfei Tian*, Multifunctional ultraviolet-C micro-LED with monolithically integrated photodetector for optical wireless communication, Journal of Lightwave Technology, 40(2), 490-498 (2022).

[27]  Zhenpeng Wang, # Runze Lin, # Daopeng Qu, Xugao Cui, and Pengfei Tian*, Ultrafast machine vision with novel artificial neural network devices based on GaN-based micro-LED array, Optics Express, 29(20), 31963-31973 (2021).

[28]  Zhou Wang, Shijie Zhu, Xinyi Shan, Zexing Yuan, Xugao Cui, Pengfei Tian*, Full-color micro-LED display based on a single chip with two types of InGaN/GaN MQWs, Optics Letters, 46(17), 4358-4361 (2021).

[29]  Zeyuan Qian,# Xugao Cui,# Zitong Wang, Gufan Zhou, Runze Lin, Erdan Gu, Pengfei Tian,* Characteristics of underwater lighting based on white LEDs, Optik, 245, 167638 (2021).

[30]  Gufan Zhou, Runze Lin, Zeyuan Qian, Xiaojie Zhou, Xinyi Shan, Xugao Cui,* Pengfei Tian*, GaN-based micro-LEDs and detectors defined by current spreading layer: size-dependent characteristics and their multifunctional applications, Journal of Physics D: Applied Physics, 54(33), 335104 (2021).

[31]  Pengjiang Qiu, Ganggang Cui, Zeyuan Qian, Shijie Zhu, Xinyi Shan, Zhuoqun Zhao, Xiaoli Zhou, Xugao Cui, and Pengfei Tian*, 4.0 Gbps visible light communication in dense fog environment based on a blue laser diode, Optics Express, 29(9), 14163-14173 (2021).

[32]  Mengyin Jin, Zeyuan Qian, Xinwei Chen, Xugao Cui, Ke Jiang, Xiaojuan Sun, Dabing Li*, and Pengfei Tian*, 4 GHz signal transmission beyond the system bandwidth in UV-C LED communication based on temporal ghost imaging, Chinese Optics Letters, 19(11), 110602 (2021).

[33]  Shijie Zhu, Pengjiang Qiu, Zeyuan Qian, Xinyi Shan, Zhou Wang, Ke Jiang, Xiaojuan Sun, Xugao Cui, Guoqi Zhang, Dabing Li* and Pengfei Tian*, 2 Gbps free-space ultraviolet-C communication based on a high-bandwidth micro-LED achieved with pre-equalization, Optics Letters, 46(9), 2147-2150 (2021).

[34]  Xinwei Chen, Mengyin Jin, Honglan Chen, Yupeng Wang, Pengjiang Qiu, Xugao Cui, Baoqing Sun*, and Pengfei Tian*, Computational temporal ghost imaging for long-distance underwater wireless optical communication, Optics Letters, 46(8), 1938-1941 (2021). 期刊Top Downloaded论文

[35]  Runze Lin, Xiaoyan Liu, Gufan Zhou, Zeyuan Qian, Xugao Cui, Pengfei Tian*, InGaN micro-LED array enabled advanced underwater wireless optical communication and underwater charging, Advanced Optical Materials, 9 (12), 2002211 (2021).

[36]  Mengling Xia#, Shijie Zhu#, Jiajun Luo, Yinsheng Xu, Pengfei Tian*, Guangda Niu*, and Jiang Tang, Ultra-stable perovskite nanocrystals in all-inorganic transparent matrix for high-speed underwater wireless optical communication, Advanced Optical Materials, 9 (12) ,2002239 (2021).

[37]  Progress in Quantum Electronics, 73, 100274 (2020). (Invited review邀请综述)。该期刊 Top cited和Most downloaded论文，该期刊首篇Highlight论文

[38]  Progress in Quantum Electronics, 71, 100263 (2020). (Invited review邀请综述) 该期刊 Top cited和Most downloaded论文，ESI高被引论文，Google Scholar 124 citations

[39]  IEEE Photonics Journal, 12, 7902310 (2020).

[40]  ACS Photonics, 6(12): 3186-3195 (2019). Semiconductor Today新闻报道

[41]  Chinese Optics Letters, 17 (10), 100010 (2019). (Invited paper)

[42]  ACS Applied Materials & Interfaces 10, 5641 (2018). Google Scholar 167 citations，ESI高被引论文

[43]  Advanced Science 5, 1800369 (2018). Google Scholar 109 citations

[44]  Optics Express 26(15), 19259-19274 (2018). Media: Laser Focus World Magazine Newsbreaks, 基金委报道

[45]  Applied Physics Express 11, 044101 (2018).

[46]  IEEE Photonics Journal 9, 7204909 (2017).

[47]  Optics Express 25, 27937 (2017). Google Scholar 176 citations

[48]  Optics Express 25, 17971 (2017).

[49]  Optics Express 25, 1193 (2017). Google Scholar 168 citations

[50]  Journal of Physics D: Applied Physics 50, 075101 (2017).

[51]  Semiconductor Science and Technology 31, 045005 (2016).

[52]  Optics Express 24, 699 (2016).

[53]  Applied Physics Letters 105, 171107 (2014).

[54]  Journal of Applied Physics 115, 033112 (2014). Google Scholar 101 citations

[55]  Applied Physics Letters 101, 231110 (2012). 被诺贝尔奖得主评价首次系统研究了micro-LED的尺寸效应 208 citations, Google Scholar

Google Scholar引用2500余次，H-index: 27