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). Semiconductor Today新闻报道
[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* , Growth, transfer printing and colour conversion techniques towards full-colour micro-LED display, 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 Google Scholar 208 citations
[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). Google Scholar 111 citations
[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 252 citations, Google Scholar
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). Semiconductor Today新闻报道
Micro-LED高速通信、高精度定位
[26] Zuxin Jin, Runze Lin, Xuyang Liu, Di Sun, Bin Liu, Tao Tao, Feifan Xu, Zhilai Fang, Xugao Cui, and Pengfei Tian, Green micro-LED with a bandwidth exceeding 2 GHz for 9-Gbps visible light communication based on SNR gap-dependent bit and power loading, Journal of Lightwave Technology, in press (2024).
[27] 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).
[28] 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, 42(13): 4360-4364 (2024).
[29] 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).
[30] 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).
[31] 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).
[32] 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).
[33] 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).
[34] 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).
[35] 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).
[36] 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).
[37] 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).
[38] 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).
[39] 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).
[40] 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).
[41] 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).
[42] 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).
[43] 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
[44] 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)
[45] 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).
[46] 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).
[47] 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
[48] 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
[49] 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).
[50] Shijie Zhu,# Xinwei Chen,# Xiaoyan Liu, Guoqi Zhang, and Pengfei Tian,#* Recent progress in and perspectives of underwater wireless optical communication, Progress in Quantum Electronics, 73, 100274 (2020). (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。Google Scholar 178 citations
[51] 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).
[52] 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)
[53] 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: Laser Focus World Magazine Newsbreaks, Electronic Design, News of National Natural Science Foundation of China.
[54] 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). Google Scholar 229 citations
[55] 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). Google Scholar 202 citations
深紫外micro-LED及通信
[56] 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).
[57] 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).
[58] 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。
[59] 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)
[60] 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).
[61] 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).
[62] 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).
[63] 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).
[64] 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
[65] 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, Advanced Optical Materials, 2300984 (2023).
[66] 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).
[67] 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).
[68] 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: Perovskite-info and microled-info news ESI高被引论文Google Scholar 205 citations
[69] 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, Advanced Science 5(8), 1800369 (2018). Google Scholar 134 citations