田朋飞 -亚博vip888

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田朋飞

光源与照明工程系

职称：研究员、博导

职务：

电子邮件：pftian@fudan.edu.cn

办公地点：江湾校区交叉二号楼c4019

电话：

课题组yabo亚博88主页：

田朋飞，复旦大学教授、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）。ieee/optica高级会员，东方英才计划青年项目(原上海市青年拔尖人才)。

方向：第三代半导体micro-led器件及其显示、光通信、引力波探测、脑机接口、无掩模光刻应用研究。独立pi，负责实验室建设、学生培养等。

项目：承担国家重点研发计划国际合作项目、两项国家重点研发计划子课题、国家自然科学基金面上项目等项目。

论著：在acs photonics, progress in quantum electronics, advanced optical materials, photonics research, optics letters, journal of lightwave technology, ieee electron device letters, applied physics letters等发表109篇sci论文，以第一或通讯作者发表sci论文73篇，其中3篇科睿唯安esi高被引、3篇邀请sci综述；发表会议论文/报告70余篇，其中邀请报告20余次；出版5部专著；授权发明专利10余项。

引用报道：google scholar引用3800余次，h因子31。研究成果被progress in quantum electronics期刊、semiconductor today、laser focus world等报道。

先进性举例

国际领先工作：单颗蓝光micro-led器件通信速率>10gbps，串联micro-led器件通信速率~10gbps@10m，单颗绿光micro-led通信速率>6gbps。

被诺贝尔奖得主在综述论文中评价“首次系统性研究影响micro-led效率的关键因素尺寸效应”。

课题组人员

&教授和副教授3名，博士和硕士生20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

研究生获奖

&复旦大学学术之星、上海市优秀学生、复旦大学优秀学生、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

研究生毕业去向

&南京邮电（副教授）、华为、中兴、比亚迪、商飞、emc、天马微电子

更多信息请关注课题组微信公众号：

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)

micro-led显示

[1] xinyi shan, yanzhe li, huabin yu, runze lin, cuili tan, rui wang, yuanmin luo, xugao cui, ran liu, and pengfei tian*, temperature-dependent electroluminescence of red high-in-content mqws of dual-wavelength micro-led, optics express, 32(11): 20412-20420 (2024).

[2] zhou wang, xinyi shan, shijie zhu, xugao cui, zhilang fang, gengzhao xu, zhenghui liu, wentao song, ke xu and pengfei tian*, size-dependent sidewall defect effect of gan blue micro-leds by photoluminescence and fluorescence lifetime imaging, optics letters, 48(18): 4815-4848(2023).

[3] xinyi lu, yanzhe li, zuxin jin, shijie zhu, zhou wang, zeyuan qian, yi fu, kui tu, hui guan, xugao cui, and pengfei tian*, red ingan micro-leds on silicon substrates: potential for multicolor display and wavelength division multiplexing visible light communication, journal of lightwave technology, 41(16): 5394-5404 (2023).

[4] 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, 10(1): 92–100 (2023).

[5] 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).

[6] zhou wang, shijie zhu, xinyi shan, zexing yuan, xugao cui, and 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).

[7] 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).

[8] 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).

[9] 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).

[10] 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).

[11] xiaojie zhou #, pengfei tian#,*, chinwei sher, jiang wu, hezhuang liu, ran liu and haochung kuo* ,, progress in quantum electronics, 71， 100263 (2020). (invited review邀请综述) 该期刊 top cited、most downloaded论文，2020年7月至今。esi高被引论文

[12] runze lin, desheng zhao, guohao yu , xiaoyan liu , dongdong wu, erdan gu, xugao cui, ran liu, baoshun zhang, and pengfei tian*, fabrication and characteristics of flexible normally-off algan/gan hemts, aip advances 10(10), 105317 (2020)

[13] pengfei tian,* paul r edwards, michael j wallace, robert w martin, jonathan j d mckendry, erdan gu*, martin d dawson, zhi-jun qiu, chuanyu jia, zhizhong chen, guoyi zhang, lirong zheng, ran liu*, “characteristics of gan-based light emitting diodes with different thicknesses of buffer layer grown by hvpe and mocvd”, journal of physics d: applied physics 50, 075101 (2017).

[14] pengfei tian,* ahmad althumali, erdan gu*, ian m watson, martin d dawson, ran liu, “aging characteristics of blue ingan micro-light emitting diodes at an extremely high current density of 3.5 kacm^-2”, semiconductor science and technology 31, 045005 (2016).

[15] pengfei tian,* jonathan j d mckendry, erdan gu*, zhizhong chen, yongjian sun, guoyi zhang, martin d dawson, ran liu, “fabrication, characteristics and applications of flexible vertical ingan micro-light emitting diode arrays”, optics express 24, 699 (2016).

[16] pengfei tian, jonathan j d mckendry, johannes herrnsdorf, scott watson, ricardo ferreira, ian m watson, erdan gu*, anthony e kelly, martin d dawson,“temperature dependent efficiency droop of blue ingan micro-light emitting diodes”, applied physics letters 105, 171107 (2014).

[17] pengfei tian, jonathan j d mckendry, zheng gong, shuailong zhang, scott watson, dandan zhu, ian m watson, erdan gu*, anthony e kelly, colin j humphreys, martin d dawson, “characteristics and applications of micro-pixelated gan-based light emitting diodes on si substrates”, journal of applied physics 115, 033112 (2014).

[18] pengfei tian, jonathan j d mckendry, zheng gong, benoit guilhabert, ian m watson, erdan gu*, zhizhong chen, guoyi zhang, martin d dawson, “size-dependent efficiency and efficiency droop of blue ingan micro-light emitting diodes”, applied physics letters 101, 231110 (2012). 被诺贝尔奖得主中村修二评价首次系统研究了micro-led的尺寸效应

micro-led发光和探测一体化新应用探索

[19] yue liao, xinyi shan, zhiwei rao, guobin wang, runze lin, xugao cui, ke xu, and pengfei tian, size-dependent characteristics of high-bandwidth photodetector based on gan micro-leds and leds for high-speed visible light communication, journal of lightwave technology, in press (2024).

[20] jingyi wang, huachen ge, yue liao, daqi shen, linze li, tianyu long, zhiyang xie, haiming ji, pengfei tian*, baile chen*, ingap/algaas near-uv and visible avalanche photodiodes for li-fi application, photonics technology letters, 36(5): 293-296 (2024).

[21] lintao yan, zuxin jin, runze lin, xinyi lu, xinyi shan, shijie zhu, zhilai fang, xugao cui, and pengfei tian*, ingan micro-led array with integrated emission and detection functions for color detection application, optics letters, 48(11): 2861-2864 (2023).

[22] 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).

[23] 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).

[24] 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).

[25] xiaoyan liu, runze lin, honglan chen, shuailong zhang, zeyuan qian, gufan zhou, xinwei chen, xiaojie zhou, lirong zheng, ran liu and pengfei tian*, high-bandwidth ingan self-powered detector arrays toward mimo visible light communication based on micro-led arrays, acs photonics, 6(12): 3186-3195 (2019).

micro-led高速通信、高精度定位

[26] di sun, zuxin jin, daqi shen, zhilai fang, xugao cui*, and pengfei tian*, multi-user visible light communication based on computational temporal ghost imaging and code division multiple access with wide field of view and encryption, optics communications, 564, 130591 (2024).

[27] zhiwei rao, xinyi shan, guobin wang, zuxin jin, runze lin, xugao cui, ran liu, ke xu, and pengfei tian*, 10.5 gbps visible light communication systems based on c-plane freestanding gan micro-led, journal of lightwave technology, doi: 10.1109/jlt.2024.3363729 (2024).

[28] di sun, juliusz bojarczuk, zuxin jin, michal marzecki, xugao cui, pengfei tian*, and grzegorz stepniak*, 6 gbps micro-led transmission using ofdm with predistortion and single-tap nonlinearity compensation, ieee photonics technology letters, 35(14): 781-784 (2023).

[29] pengfei tian,^#,* daopeng qu,^# daqi shen,^# di sun, zhou wang, zhuoqun zhao, zhilai fang, and xugao cui, correlation reconstruction based high-accuracy led and micro-led positioning, journal of lightwave technology, 41(18): 5879-5884 (2023).

[30] zuxin jin, lintao yan, shijie zhu, di sun, xugao cui and pengfei tian*, 10-gbps visible light communication in a 10-m free space based on violet series-biased micro-led array and distance adaptive pre-equalization, optics letters, 48(8): 2026-2029 (2023).

[31] xinyi shan, guobin wang, shijie zhu, pengjiang qiu, runze lin, zhou wang, zexing yuan, qi-ang yan, xugao cui, jianfeng wang, wengang bi,* 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, 41(5): 1480-1486 (2023).

[32] feifan xu, pengjiang qiu, tao tao*, pengfei tian*, xiaoyan liu*, ting zhi, zili xie, bin liu*, and rong zhang, high bandwidth semi-polar ingan/gan micro-leds with low current injection for visible light communication, ieee photonics journal, 15(1): 7300704 (2023).

[33] 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).

[34] 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).

[35] 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).

[36] 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).

[37] 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).

[38] 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).

[39] 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).

[40] 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).

[41] 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).

[42] 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). esi高被引论文

[43] yupeng wang, honglan chen, wenjie jiang, xianye li, xinwei chen, xiangfeng meng, pengfei tian*, and baoqing sun*，optical encryption for visible light communication based on temporal ghost imaging with a micro-led，optics and lasers in engineering 134, 106290 (2020)

[44] pengfei tian*, zhengyuan wu, xiaoyan liu, zhilai fang, shuailong zhang, xiaolin zhou, kefu liu, ming-gang liu, shu-jhih chen, chia-yu lee, chunxiao cong, laigui hu, zhi-jun qiu, lirong zheng, and ran liu, “large-signal modulation characteristics of a gan-based micro-led for gbps visible-light communication”, applied physics express 11(4), 044101 (2018).

[45] xiaoyan liu, pengfei tian,* zixian wei, suyu yi, yuxin huang, xiaolin zhou, zhi-jun qiu, laigui hu, zhilai fang, chunxiao cong, lirong zheng, ran liu, “gbps long-distance real-time visible light communications using a high-bandwidth gan-based micro-led”, ieee photonics journal 9, 7204909 (2017).

[46] zhijian lu*, pengfei tian,* hong chen, izak baranowski, houqiang fu, xuanqi huang, jossue montes, youyou fan, hongyi wang, xiaoyan liu, ran liu, yuji zhao*, “active tracking system for visible light communication using a gan-based micro-led and nrz-ook”, optics express 25, 17971 (2017).

水下通信

[47] 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

[48] 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).

[49] shijie zhu,# xinwei chen,# xiaoyan liu, guoqi zhang, and pengfei tian,#* recent progress in and perspectives of underwater wireless optical communication, . (invited review邀请综述)。progress in quantum electronics期刊首篇highlight论文，该期刊 top cited、most downloaded论文。

[50] honglan chen†, xinwei chen†, jie lu, xiaoyan liu, jiarong shi, lirong zheng, ran liu, xiaolin zhou, and pengfei tian*, toward long-distance underwater wireless optical communication based on a high-sensitivity single photon avalanche diode, ieee photonics journal, 12(3), 7902310 (2020).

[51] pengfei tian*,#, honglan chen#, peiyao wang, xiaoyan liu, xinwei chen, gufan zhou, shuailong zhang, jie lu, pengjiang qiu, zeyuan qian, xiaolin zhou, zhilai fang, lirong zheng, ran liu, xugao cui*, absorption and scattering effects of maalox, chlorophyll, and sea salt on a micro-led-based underwater wireless optical communication, chinese optics letters 17 (10), 100010 (2019). (invited paper)

[52] xiaoyan liu, suyu yi, xiaolin zhou, shuailong zhang, zhilai fang, zhi-jun qiu, laigui hu, chunxiao cong, lirong zheng, ran liu, pengfei tian*, “laser-based white-light source for high-speed underwater wireless optical communication and high-efficiency underwater solid-state lighting", optics express 26(15), 19259-19274 (2018). media: , electronic design, .

[53] xiaoyan liu, suyu yi, xiaolin zhou, zhilai fang, zhi-jun qiu, laigui hu, chunxiao cong, lirong zheng, ran liu, pengfei tian,* “34.5 m underwater wireless optical communication with 2.7 gbps data rate based on a green laser with nrz-ook modulation”, optics express 25, 27937 (2017).

[54] pengfei tian,* xiaoyan liu, suyu yi, yuxin huang, shuailong zhang, xiaolin zhou, laigui hu, lirong zheng, ran liu, “high-speed underwater optical wireless communication using a blue gan-based micro-led”, optics express 25, 1193 (2017).

深紫外micro-led及通信

[55] jiangxie jia, yuandong ruan, yuning gu, zhihao zhang, shanduan zhang, ruiqian guo, xugao cui, and pengfei tian*, numerical simulation of deep ultraviolet led, micro-led, and nano-led with different emission wavelengths based on fdtd, optics express, in press (2024).

[56] cuili tan, tianyang ren, daopeng qu, xinyi shan, runze lin, zhihao zhang, fusheng li, qiuyi han, xugao cui, ruiqian guo, shanduan zhang*, and pengfei tian*, maskless photolithography based on ultraviolet micro-leds and direct writing method for improving pattern resolution, optics express, 32(11), 18916-18930 (2024).

[57] pengfei tian*, the 2023 micro led roadmap: the micro-led roadmap: status quo and prospects (uv micro-leds and applications), journal of physics: photonics, 5, 042502 (2023). 章节第一作者。路线图作者还包括诺奖得主中村修二，美国院士吴诗聪等。

[58] 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，邀请综述)

[59] 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).

[60] 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).

[61] 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).

[62] 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).

[63] 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).

量子点/micro-led集成及光通信应用

[64] junlu guo, yanzhe li, xinyi shan, deyin wang,* pengfei tian,* and yuhua wang*, facile microwave synthesis of efficient green emissive carbon dots powder and their application in visible light communication and white light emitting device, .

[65] 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).

[66] mengling xia#, shijie zhu#, jiajun luo, yinsheng xu, pengfei tian*, guangda niu*, and jiang tang, , advanced optical materials, 9 (12) ,2002239 (2021).

[67] shiliang mei#, xiaoyan liu#, wanlu zhang, ran liu, lirong zheng, ruiqian guo* and pengfei tian*, high-bandwidth white-light system combining a micro-led with perovskite quantum dots for visible light communication, acs applied materials & interfaces 10(6), 5641 (2018). media: esi高被引论文

[68] zhengjie zhou,# pengfei tian (equal contribution),# xiaoyan liu, shiliang mei, ding zhou, pengtao jing, di li, wanlu zhang, ruiqian guo*, songnan qu*, and andrey l. rogach, hydrogen peroxide-treated carbon dot phosphor with a bathochromic-shifted, aggregation-enhanced emission for light-emitting devices and visible light communication, .