个人简介
王佳琪,“中山大学百人计划”引进副教授,博士生/硕士生导师,广东省重大人才工程青年人才项目入选者,中山大学逸仙学者,工业产品环境适应性全国重点实验室(海洋环境技术与工程)副主任。分别在电子科技大学和香港科技大学获得学士和博士学位,其后在香港中文大学从事博士后研究。王佳琪博士长期从事智能光电与自供电系统方面的前沿技术探索,提出了将摩擦发电与光电技术融合的原理与方法,并将其应用于海洋观测等领域,实现了能量与信息的一体化,曾提出基于摩擦电驱动液晶的传感原理、摩擦放电电磁波辐射原理与技术(传输距离与体积比为当时最高)、以及摩擦瞬时放电电磁波与激光同步辐射方法(为首次提出)。 建立了智能感知与自供电系统实验室,融合“光-机-电-算”四个技术平台。近年来,以第一作者和通讯作者(含共同)发表学术论文19篇,其中包括Science旗下子刊Science Advances(IF:13.6), Advanced Materials (IF: 27.4), Advanced Science(IF:15.1), Nano Energy(IF:17.6), ACS Nano(IF:17.1), SusMat(IF:28.6), ACS Applied Materials & Interfaces(IF:9.5)等,申请9项专利(已授权3项),获批软件著作权一项, 获得美国机械工程师协会授予的InterPACK&ICNMM最佳论文奖一项。目前主要从事前沿海洋技术方面的研究,具体研究内容包括:
1. 摩擦电/压电/无线电场驱动自供电液晶技术(基于自供电液晶技术感知微尺度海洋过程、环境电场等)
2. 摩擦瞬时放电辐射技术(瞬时转移摩擦电荷产生脉冲式辐射,并利用辐射特性对海洋进行观测)
3. 前沿海洋探测技术 (基于先进的“光-机-电-算”平台研究越浪、随浪、飞沫等海洋特性的探测方法)
4. 海洋环境室内模拟器 (依靠实验室的设计,制造和加工能力,在室内条件下,模拟碳循环过程,配合多物理参数传感器,打造海洋环境室内模拟器)
实验室长期招收博士后研究员、博士研究生、硕士研究生与研究助理,鼓励交叉学科融合,欢迎具有物理学、电子信息工程,机械工程,光电信息技术,海洋技术等学科背景的学生和研究人员加入实验室。
教育经历
2009.9-2013.7,电子科技大学,工学学士(真空电子技术)
2013.9-2018.8,香港科技大学,哲学博士(机械工程学)
工作经历
2018.9-2019.1, LED-FPD工程技术研究开发中心(佛山),香港科技大学,光电研究员
2019.3-2021.3,机械与自动化工程学系,香港中文大学,博士后研究员
2021.4-2025.7,海洋科学学院,中山大学,副教授,硕士生导师
2025.8-至今,海洋科学学院,中山大学,副教授,博士生/硕士生导师
获得奖项
1. 2022.12, 入选广东省重大人才工程青年人才项目
2. 2015.7, 美国机械工程师协会InterPACK&ICNMM会议最佳论文奖(入选比例3/400,获奖排序:第一)
3. 2025.10, 中山大学第十三届教学竞赛,二等奖
4. 2022.10, 中山大学第十届教师教学竞赛,优胜奖
论文发表
#为同等贡献者(共同第一作者),*为通讯作者
26. Jiaqi Wang*, Xinghui Qin, Zixian Lai, Chuang Zhou, Zhong Lin Wang*, Simultaneous Laser Light and Electromagnetic Wave Pulsed Emissions Triggered by Mechanical Stimuli,Under Review, 2025
25. Zixian Lai, Guoliang Fu, Jiaqi Wang*, A Self-Powered Water Quality Sensor Driven by Instantaneous Discharge from a Bifunctional Rotational TENG for Simultaneous Powering and Mechanical Optical Switching,Under Review, 2025
24. Shuifu Liu, Xinghui Qin, Rongkai Du, Yifan Sun, Shixing Xie, Jiaqi Wang*, Liyi Li*, Maxim S. Molokeev, Lei Zhou*, Mingmei Wu,Ultra-Broadband Single-Phase Phosphors: A Promising Sunlight-Like Full-Spectrum Emission Simulator, Advanced Materials, 2024, 36, 2406164
23. Xingwen Chen #, Jiaqi Wang # *, Cuiling Meng, Pengcheng Liu, Yifan Sun, Xinghui Qin, Shixing Xie, A Fully Self-Powered Ocean Wave Observation System Empowered by Natural Light Modulated by a Friction-Driven Polymer Network Liquid Crystal, ACS Applied Materials & Interfaces, 2024, 16, 13773-13785.
22. Jiaqi Wang# *, Xingwen Chen, Yifan Sun, Xinghui Chen, A natural-enabled self-powered system simultaneously monitoring wind speed, humidity, and irradiance in multiple channels, Nano Energy, 2024, 123, 109364.
21. Jiaqi Wang# *, Xingwen Chen#, Shixing Xie, Guowei Bao, A Fully Wireless and Self-Powered Ocean Wave Observation System Empowered by the Friction-Driven Liquid Crystals. ACS Applied Materials & Interfaces, 2023, 15, 46, 53476–53487.
20. Jiaqi Wang# *, Guowei Bao#, Shixing Xie, Xingwen Chen, A Paradigm-Shift Self-Powered Optical Sensing System enabled by the Rotation Driven Instantaneous Discharging Triboelectric Nanogenerator (RDID-TENG). Nano Energy, 2023, 115, 108732.
19. Xingwen Chen#, Guowei Bao#, Shixing Xie, Xinghui Qin, Jiaqi Wang*, A Self-Powered Wide-Range Ocean-Wave Sensor enabled by Triboelectric Nanogenerators embedded with Overrunning Clutches. Nano Energy, 2023, 115, 108685.
18. Jingjing Fu, Ziwu Song, Guoqiang Xu, Haoyu Wang, Xinyuan Li, Jiaqi Wang, Wenbo Ding, Wei Ren, Iek Man Lei, Yunlong Zi*, Optical Emission from Triboelectric Gas Discharge toward Self-Powered Gas Sensing. Advanced Optical Materials, 2023, 11(9), 2202697.
17. Haoyu, Wang, Jingjing Fu, Jiaqi Wang, Li Su, Yunlong Zi*, Tribophotonics: an Emerging Self-Powered Wireless Solution toward Smart City. Nano Energy (Review Paper), 2022, 107196.
16. Haoyu Wang#, Jiaqi Wang#, Kuanming Yao, Jingjing Fu, Xin Xia, Ruirui Zhang, Jiyu Li, Guoqiang Xu, Lingyun Wang, Jingchao Yang, Jie Lai, Yuan Dai*, Zhengyou Zhang, Anyin Li, Yuyan Zhu, Xinge Yu, Zhong Lin Wang*, Yunlong Zi*, A Paradigm-Shift Fully-Self-Powered Long-Distance Wireless Sensing Solution Enabled by Discharge Induced Displacement, Science Advances, 2021, 7(39), eabi6751.
15. Jiaqi Wang, Ho-Yin Man, Cuiling Meng, Pengcheng Liu, Shaoxin Li, Hoi Sing, Kwok, Yunlong Zi*, A Fully Self-Powered, Natural-Light-Enabled Fiber-Optic Vibration Sensing Solution, SusMat, 2021, 1(4), 593-602.
14. Jiaqi Wang#, Haoyu Wang#, Kedong Yin, Yunlong Zi*, Tribo-Induced Color Tuner toward Smart Lighting and Self-Powered Wireless Sensing, Advanced Science, 2021, 8, 2004970.
13. Jiaqi Wang#, Cuiling Meng#, Chun-Ta Wang#, Chia-Hua Liu, Yong-Hsiang Chang, Cheng-Chang Li, Heng-Yi Teng, Hoi-Sing Kwok, Yunlong Zi*, A Fully Self-Powered, Ultra-Stable Cholesteric Smart Window Triggered by Instantaneous Mechanical Stimuli, Nano Energy, 2021, 85, 105976.
12. Jiaqi Wang#, Pengcheng Liu#, Cuiling Meng, Hoi Sing Kwok, Yunlong Zi*, Tribo-Induced Smart Reflector for Ultrasensitive Self-Powered Wireless Sensing of Air Flow, ACS Applied Materials & Interfaces, 2021, 13, 21450-21458.
11. Dong Guan, Guoqiang Xu, Xia Xin, Jiaqi Wang, Yunlong Zi*. Boosting the output performance of the triboelectric nanogenerator through the nonlinear oscillator. ACS Applied Materials & Interfaces, 2021,13(5), 6331-6338.
10. Jiaqi Wang#, Cuiling Meng#, Qian Gu, Man Chun Tseng, Shu Tuen Tang, Hoi Sing Kwok, Jia Cheng, Yunlong Zi*, Normally Transparent Tribo-Induced Smart Window. ACS Nano, 2020, 14, 3630-3639.
9. Haoyu Wang#, Jiaqi Wang#, Xin Xia, Dong Guan, Yunlong Zi*, Multifunctional Self-Powered Switch toward Delay-Characteristic Sensors, ACS Applied Materials & Interfaces, 2020, 12, 22873–22880.
8. Jiaqi Wang, Yunlong Zi*, Shuyao Li, Xiangyu Chen*, High-Voltage Applications of the Triboelectric Nanogenerator—Opportunities Brought by the Unique Energy Technology, MRS Energy & Sustainability (Review Paper), 2019, 6, E17.
7. Jiaqi Wang, Haoyu Wang, Xiaoyi Li, Yunlong Zi*, Self-powered electrowetting optical switch driven by a triboelectric nanogenerator for wireless sensing. Nano Energy, 2019, 66, 104140.
6. Jiaqi Wang, Jeffery C.C. Lo, S.W.Ricky Lee*, Mian Tao, Huayong Zou, Feng Yun, A Novel Approach to Characterize Phosphor Particles for the Color Tuning of WLEDs, IEEE Photonics Technology Letters, 2018, 30, 513-516.
5. Jiaqi Wang, S.W.R. Lee*, Brian Shieh, Investigation of Light Scattering Effect Impact on Optical Performance of Phosphor Converted White Light Emitting Diodes,2018 20th IEEE International Conference on Electronic Materials and Packaging (EMAP), Hong Kong.
4. Jiaqi Wang, S.W.R. Lee*, Brian Shieh, Investigation of Packaging Material Degradation’s Influence on Optical Performance of Phosphor Converted White Light Emitting Diodes, 2018 20th IEEE International Conference on Electronic Materials and Packaging (EMAP), Hong Kong.
3. Jiaqi Wang, S.W.R. Lee*, Huayong Zou, Investigation on the Influence of Phosphor Particle Size Gradient on the Optical Performance of White Light-Emitting Diodes, 2016 IEEE Electronic Packaging Technology Conference (EPTC), Singapore.
2. Jiaqi Wang, S.W.R. Lee*, Huayong Zou, Effect of the Interface Curvature of a Phosphor Layer on the Optical Performance of a WLED, 2016 China Solid State Lighting Conference (China SSL), Beijing, China.
1. Jiaqi Wang, J.C.C. Lo, S.W.R. Lee*, Feng Yun, Mian Tao, Modelling and Parametric Study of Light Scattering, Absorption and Emission of Phosphor in a White Light-Emitting Diode, ASME 2015 International Technical Conference and Exhibition on Packaging and Integration of Electronic and Photonic Microsystems (InterPACK/ICNMM), San Francisco, USA.(Best Paper Award)
软件著作权
1. 王佳琪,邓铮渝,王弋航,一种重叠颗粒物的分离与轮廓重建软件 (已获批)
教授课程
本科生课程:MS-3114《Python语言与程序设计》, 2022.3-至今
MS-1990《数据分析与办公自动化 (基于Python)》,2022.3-至今
研究生课程:MS-6157 (MS-6657)《Python数据分析 Numpy, Pandas, Matplotlib》,2021.9-2023.7
