个人教育及工作经历

2019－至今，暨南大学 光子技术研究院，副研究员

2015－2018，新加坡南洋理工大学 电子与电气工程学院 光纤技术中心，博士后

2009－2014，中国科学院长春光学精密机械与物理研究所 应用光学国家重点实验室，机械制造及其自动化专业博士

2005－2009，吉林大学 机械与航天工程学院，机械工程及自动化专业 学士

主要学术兼职

担任Optics Letters，Journal of Lightwave Technology，Optical Fiber Technology，Nanotechnology，Journal of Physics D: Applied Physics，Optics Engineering，Sensors，Materials等国际期刊审稿人

代表性学术论文与著作

近5年发表论文50余篇（被引用800余次，H-index 19），以第一作者和通讯作者发表论文14篇（SCI一区4篇，二区8篇），其中单篇最高引用74次，2篇获选刊封面，2篇获选期刊亮点文章，研究成果被国内外多家知名科学媒体重点报道；参与撰写Springer Nature著作《Advanced Fiber Sensing Technologies》两章。

学术专著

《Advanced Fiber Sensing Technologies》, Springer Nature出版社, 2020年07月出版，ISBN：978-981-15-5506-0. (撰写章节1: Hybrid Fiber-Optic Sensors, 撰写章节2: Optical Microfiber Sensors)

代表性科研论文

1. Kaiwei Li, Nan Zhang, Ting Zhang, et al. “Formation of ultra-flexible, conformal, and nano-patterned photonic surfaces via polymer cold-drawing”, Journal of Materials Chemistry C, 2018, 6(17): 4649-4657. (Journal front cover).

2. Kaiwei Li, Nan Zhang, Nancy Meng Ying Zhang, et al. “Birefringence induced Vernier effect in optical fiber modal interferometers for enhanced sensing” Sensors and Actuators B: Chemical, 2018, 275: 16–24.

3. Wenchao Zhou^#, Kaiwei Li^#, Youlian Wei, et al. “Ultrasensitive label-free optical microfiber coupler biosensor for detection of cardiac troponin I based on interference turning point effect”, Biosensors and Bioelectronics, 2018, 106: 99-104. (co-first author).

4. Nan Zhang^#, Kaiwei Li^#, Ying Cui, et al. “Ultra-sensitive chemical and biological analysis via specialty fibers with built-in microstructured optofluidic channels”, Lab on a Chip, 2018, 18:655-661. (co-first author).

5. Kaiwei Li, Ting Zhang, Guigen Liu, et al. “Ultrasensitive optical microfiber coupler based sensors operating near the turning point of effective group index difference”, Applied Physics Letters, 2016, 109(10): 101101. (Journal front cover, Editor’s pick).

6. Kaiwei Li, Nan Zhang, Mengying Zhang, Guigen Liu, et al. “Ultrasensitive measurement of gas refractive index using an optical nanofiber coupler”, Optics Letters, 2018, 43(4): 679-682.

7. Kaiwei Li, Mengying Zhang, Nan Zhang, et al. “Spectral Characteristics and Ultrahigh Sensitivities Near the Dispersion Turning Point of Optical Microfiber Couplers”, Journal of Lightwave Technology, 2018, 36(12): 2409-2415.

8. Kaiwei Li, Wenchao Zhou, Shuwen Zeng. “Optical micro/nanofiber based localized surface plasmon resonance biosensors: fiber diameter dependence”. Sensors, 2018, 18.10: 3295.

9. Kaiwei Li, Guigen Liu, Yihui Wu, et al. “Gold nanoparticle amplified optical microfiber evanescent wave absorption biosensor for cancer biomarker detection in serum”, Talanta, 2014, 120: 419-424.

10. Mengying Zhang, Kaiwei Li*, Nan Zhang, et al. “Highly Sensitive Gas Refractometers Based on Optical Microfiber Modal Interferometers Operating at the Dispersion Turning Point” Optics Express, 2018, 26.22: 29148-29158. (Editor’s pick).

11. Ying Si, Jiajie Lao, Xuejun Zhang, Yuke Liu, Shunshuo Cai, Alvaro Gonzalez-Vila, Kaiwei Li*, et al. Electrochemical Plasmonic Fiber-optic Sensors for Ultra-sensitive Heavy Metal Detection, Journal of Lightwave Technology, 2019, 14.37: 3495-3502.

12. Jiajia Wang, Xiong Li, Jun Fu, and Kaiwei Li*. “High-Sensitivity, Large Dynamic Range Refractive Index Measurement Using an Optical Microfiber Coupler”, Sensors, 2019 19(23), 5078.

13. Jing Zhang, Kaiwei Li, Ting Zhang, et al.. “Laser-Induced In-Fiber Fluid Dynamical Instabilities for Precise and Scalable Fabrication of Spherical Particles”, Advanced Functional Material, 2017, 27(43). (Journal cover)

14. Ting Zhang, Kaiwei Li, Jing Zhang, Ming Chen, et al. “High-performance, flexible, and ultralong crystalline thermoelectric fibers” Nano Energy, 2017, 41: 35-42.

15.  Mengying Zhang, Kaiwei Li, Ting Zhang, et al. “Electron-Rich Two-Dimensional Molybdenum Trioxides for Highly Integrated Plasmonic Biosensing”, ACS Photonics, 2017, 5(2): 347-352.

16. Tingting Wu, Kaiwei Li, Nan Zhang, Juan Xia, Qingsheng Zeng, Xinglin Wen, Unnimadhavakurup S. Dinish et al. Ultrawideband Surface Enhanced Raman Scattering in Hybrid Graphene Fragmented‐Gold Substrates via Cold-Etching. Advanced Optical Materials, 2019,: 1900905.

17. Ting Zhang, Kaiwei Li, Chengchao Li, et al. Mechanically Durable and Flexible Thermoelectric Films from PEDOT: PSS/PVA/Bi0. 5Sb1. 5Te3 Nanocomposites Advanced Electronic Materials, 2017, 3(4). (Journal cover)

18. Mengying Zhang, Kaiwei Li, Perry Ping Shum, et al. Hybrid Graphene/Gold Plasmonic Fiber-optic Biosensor, Advanced Materials Technologies, 2017, 2(2).

19. Guigen Liu, Kaiwei Li, Fang Dai, et al. “Tuning response range of a transmission based fiber-optic refractometer through LP₁₁ mode”, Optics Letters, 2014 39(7): 1961-1964.

20. Guigen Liu, Kaiwei Li, Peng Hao, et al. “Bent optical fiber  taper for refractive index detection with a high sensitivity”, Sensors and Actuators A, Physics, 2013, 201 (2: 352–356.

21. Liu, Guigen, Kaiwei Li, Micro/nano optical fibers for label-free detection of abrin with high sensitivity. Sensors and Actuators B: Chemical, 2015, 215: 146-151.

22. Wenchao Zhou, Kaiwei Li, Chao Song, et al. Polarization-independent and omnidirectional nearly perfect absorber with ultra-thin 2D subwavelength metal grating in the visible region, Optics Express, 2015, 23(11): A413-A418.

23. Shun Wang, Ting Zhang, Kaiwei Li, Shaoyang Ma, et al. Flexible Piezoelectric Fibers for Acoustic Sensing and Positioning Advanced Electronic Materials, 2017, 3(3).

24. Guigen Liu, Yihui Wu, Kaiwei Li, Peng Hao, et al. “Silica nanospheres for filtering higher-order optical fiber modes”, Applied Optics, 2013, 52(4):775-9.

25. Guigen Liu, Yihui Wu, Kaiwei Li, Peng Hao, et al. “Mie Scattering-Enhanced Fiber-Optic Refractometer”, IEEE Photonics Technology Letters, 2012, 24(5): 658.

特邀综述论文

1. Kaiwei Li, Ting Zhang, Nan Zhang, et al. “Integrated liquid crystal photonic bandgap fiber devices”, 

Frontiers of Optoelectronics, 2016, 9:466-482. (Invited review)

2. Miao Qi, Nancy Meng Ying Zhang, Kaiwei Li, Swee Chuan Tjin and Lei Wei. “Hybrid Plasmonic Fiber-Optic Sensors”, Sensors, 2020, 20(11), 3266.