娱乐城

• 宽禁带半导体光电子器件
• 氮化镓激光器，超辐射发光二极管
• 光子集成电路，氮化物调制器，SOA
• 智能照明，可见光通信
• 自由空间光通信
• 无线光通信
• 高速水下无线光通信

*NEWS*

• 受邀撰写专栏文章“Targeting ubiquitous communication with GaN lasers”. Compound Semiconductor, 30(8), 2024. 
• 团队在“高速可见光通信机理与方法”方面研究成果获得中国通信学会自然科学一等奖！
• 国家自然科学基金青年学生基础研究项目（博士研究生）获立项资助！
• Congratulations to Zengxin and the collaborators on the tube photodetector for VLC work published on Advanced Materials! Thanks Prof. Mei for the leadership. 
• "用于可见光通信的高速蓝光半导体激光器"入选国际半导体照明联盟（ISA）2024年“全球半导体照明创新100佳”。
• 实验室成果获评第二十六届中国国际高新技术成果交易会"优秀科研成果创新奖"。
• 祝贺刘美鑫同学获得国家自然科学基金青年学生基础研究基金项目资助！
• 沈超老师获得IEEE ICAIT Young Scientist Award.
• 恭喜实验室研究生获得第七届中国研究生创“芯”大赛全国一等奖和光谷赛道一等奖！
• 实验室搬迁至湾谷科技园D3栋，欢迎您的来访。
• Our group members have been admitted to 2024 Siegman International School on Lasers hosted by Stanford University and sponsored by Optica!
• Congratulations to Junhui and the collaborators on the UWOC work published on Nature Communications!
• Congratulations to Dong and the collaborators on the three terminal UV diode work published on Nature Electronics! The work has been selected as the cover article!
• Congratulations to Junfei on high-speed laser work published on Photonics Research!
• Congratulations to Xingchen on being awarded Fudan-Guanggu Scholarship 光谷奖学金!

目前承担国家自然科学基金、科技部、上海市科委、江苏省重点研发等多项科研项目，实验室具有一流的实验研究条件，与国内外多所实验室建立合作。

欢迎电子信息、通信、微电子、材料物理、光电等专业同学加入！

欢迎在来信中说明是否符合研究生外国语免修标准(托福、雅思、六级、GRE、GMAT、口译等)：//gs.yulecheng88.com/f1/35/c12939a454965/page.htm

//www.scholarmate.com/P/chaoshen

• 第三代半导体产业技术创新战略联盟(CASA)青年创新促进委员会委员

• IEEE Photonics Journal 期刊副主编

• IEEE Photonics Society (IPS) Globalization Committee

• IEEE Electron Devices Society (EDS) Young Professionals Committee

• IEEE Smart Cities Publication Committee

• Senior Member, IEEE

• Senior Member, Optica

• IEEE ICAIT Young Scientist Award (2024)

• 日本大川基金会信息通信研究助成奖 （2022）

• CASA 第三代半导体卓越创新青年 （2021）

• IEEE OGC Optoelectronic Innovation Challenge （2020）

• 美国NYS Luminate Lighting Award（2019）

• 芬兰 Nokia Open Innovation Challenge （NOIC 2019）

• 教育部"春晖杯"中国留学人员创新创业大赛优胜奖 （2019）

• IEEE Photonics Conference Best Poster Award （2016）

2011 复旦大学材料科学系，材料物理，BSc.

2013 King Abdullah University of Science and Technology (KAUST)，Materials Science and Engineering，MSc.

2017 KACST-KAUST-UCSB, Solid State Lighting Program, PhD.

2017-2018 KAUST创新中心，研究顾问

2017-2020 SaNoor技术公司，研究主管、主任科学家

《科技英语》

《光电子学》

《工程伦理与研究方法》

《专业外语》

《微电子与光电子器件建模与仿真》

《智能光电子导论》

《Laser and Integrated Photonics for Optical Comunications》

《Engineering Ethics and Research Methodology》

//scholar.google.com/citations?user=UfsNEqgAAAAJ&hl=en

• 已在第三代半导体光电子器件，无线激光通信芯片与水下光通信系统领域发表SCI论文80余篇，总引用超过3300次。
  
• 在IEDM, ISLC, CLEO, OFC, IPC等国际重要学术会议发表论文50余篇，大会特邀报告20余次。
  
• 在高速光子集成电路与水下高速无线光通信领域申请多项美国、加拿大、澳洲专利，其中10项已授权。
  

近期部分论著有：

[1].       Investigation on large modulation bandwidth InGaN-based blue laser diodes, Optics & Laser Technology, 185, 112601 (2025)

[2].       High-speed blue laser diodes with InGaN quantum barrier for beyond 36 Gbps visible light communications, Laser & Photonics Reviews, 2401751 (2025)

[3].       Down-scaling of GaN-based laser diodes for high-speed modulation characteristics, IEEE Journal of Selected Topics in Quantum Electronics, 31(2), 1502208 (2025)

[4].       Graphene readout silicon-based microtubular photodetectors for encrypted visible light communication, Advanced Materials, 2024, 2413771

[5].       Enabling Technologies to Achieve Beyond 500Gbps Optical Intra-connects Based on WDM Visible Light Laser Communication, Journal of Lightwave Technology (2024, 10.1109/JLT.2024.3486062)

[6].       Low-resistance Ohmic contact for GaN-based laser diodes, Journal of Semiconductors, 2024, 45(12), 122502

[7].       A system enabling 1.5-km Omnidirectional Visible Light Communication through Navigation Light, IEEE Access, 12, 150387 - 150394 (2024)

[8].       Diffuse-LOS Optical Wireless Communication Across Wavy Water-Air-Interface Using UVA Light, IEEE Access, 12, 107959 - 107970 (2024)

[9].       High-speed GaN-based laser diode with modulation bandwidth exceeding 5 GHz for 20 Gbps visible light communication, Photonics Research 12 (6), 1186-1193 (2024)

[10].    Miniaturized AlGaN-based deep-ultraviolet light-emitting and detecting diode with superior light-responsive characteristics, Advanced Optical Materials, 2400499 (2024)

[11].    Study of equivalent circuit of GaN based laser chip and packaged laser, Scientific Reports, 14, 11368 (2024)

[12].    Tutorial on laser-based visible light communications” Chinese Optics Letters, 22(9), 92502 (invited, 2024)

[13].    A wide field-of-view laser based white light transmitter for visible light communications, Optics Letters, 49(10), 2805-2808 (2024)

[14].    Laser-Based Mobile Visible Light Communication System, Sensors 2024, 24(10), 3086 (invited)

[15].    A three-terminal light emitting and detecting diode, Nature Electronics, 7, 279–287 (2024) (Cover article) ESI高被引

[16].     A metasurface-based full-color circular auto-focusing Airy beams transmitter for stable high-speed underwater wireless optical communication, Nature Communications, 15, 2944 (2024) ESI高被引

[17].    High-speed GaN-based 405 nm violet superluminescent diode with tilted facet for visible light communications, Phys. Status Solidi A 2024, 2300670

[18].    31.38 Gb/s GaN-based LED array visible light communication system enhanced with V-pit and sidewall quantum well structure, Opto-Electronic Science 2 (5), 230005-1-230005-13 (2023)

[19].    Polarization-induced photocurrent switching effect in heterojunction photodiodes, Nano Research 16 (4), 5503-5510 (2023)

[20].    Si-substrate vertical-structure InGaN/GaN micro-LED-based photodetector for beyond 10Gbps visible light communication, Photonics Research, 10(10), 2394-2404 (2022, Spotlight on Optic)

[21].    DC-Balanced Even-Dimensional CAP Modulation for Visible Light Communication, Journal of Lightwave Technology, 40(15), 5041 - 5051 (2022)

[22].    46.4 Gbps visible light communication system utilizing a compact tricolor laser transmitter, Optics Express 30 (3), 4365-4373 (2022).

《可见光通信新型发光器件原理与应用》，人民邮电出版社，ISBN：9787115518132