教育背景
1989—1991 国立清华大学材料工程,硕士
1991—1993 罗格斯大学工业工程,硕士
1993—1996 东京大学精密仪器,博士
工作经历
1996—1996 日本产业技术总和研究所微机电及封装实验室,研究员
1997—1997 工业技术研究院,资深工程师
1997—2001 新加坡国立大学化学系,首席研究员
1997—1998 国立交通大学电子物理学,兼职助理教授
2001—2005 亚太优势微系统股份有限公司,共同创始人及副总裁
2001—2005 国立中兴大学精密工程系,兼职助理教授
2005—2009 新加坡微电子研究所,高级研究科学家
2005—2012 新加坡国立大学电气与计算机工程系,助理教授
2013—现在 新加坡国立大学电气与计算机工程系,副教授
2015—现在 新加坡国立大学智能传感和微机电系统中心,主任
研究领域
用于消费类应用和环境监控的光学红外微机电系统
基于自供电可穿戴和物联网传感器的人机界面
摩擦电和压电能量收集器
用于植入式应用的生物医学微纳机电系统传感器
纳米光子学
太赫兹超材料
微流控和芯片实验室
微纳技术实现经皮药物输送
用于神经接口研究和神经细胞表征的设备和仪器
荣誉、奖项
2016年 第七届泰国机械工程师学会国际机械工程大会最佳论文奖
2016年 Techconnect国家和全球创新奖
2016年 第十一届IEEE纳米/微工程和分子系统国际会议(NEMS 2016)最佳学生论文奖
2015年 韩国-新加坡国际全球健康论坛(KSEASG)最佳论文奖(金奖)
2015年 IEEE MTT-S国际微波研讨会系列最佳论文奖
2015年 第十届IEEE纳米/微工程和分子系统国际会议(NEMS 2015)的最佳论文奖(前5名论文)
2015年 IEEE MEMS 2015杰出口头论文奖
2014年 第六届国际微化学与微系统研讨会(ISMM 2014)海报纸奖
2014年 第六届微化学与微系统国际研讨会(ISMM 2014)两项口头论文奖
2012年 IEEE第十届研究生论文竞赛一等奖
2012年 国际材料研究学会国际电子材料大会(IUMRS-ICEM)青年科学家银奖
2012年 第17届光电与通信会议(OECC 201)最佳学生论文奖
代表性论文
[1] Y. Ma, Y. Chang, B. Dong, J. Wei, W. Liu, and C. Lee, "Heterogeneously Integrated Graphene/Silicon/Halide Waveguide Photodetectors toward Chip-Scale Zero-Bias Long-Wave Infrared Spectroscopic Sensing", ACS Nano, vol. 15, no.6, 10084-10094, 2021.
[2] Z. Sun, M. Zhu, Z. Zhang, Z. Chen, Q. Shi, X. Shan, R. C. H. Yeow and C. Lee, "Artificial Intelligence of Things (AIoT) Enabled Virtual Shop Applications Using Self-powered Sensor Enhanced Soft Robotic Manipulator", Adv. Sci., online published, 2021.
[3] J. Wei, Cheng Xu, Bowei Dong, Cheng-Wei Qiu, and Chengkuo Lee, "Mid-infrared Semimetal Polarization Detectors with Configurable Polarity Transition, Nature Photonics", online published, 2021
[4] M. Zhu, Z. Sun, T. Chen, and C. Lee, "Low cost exoskeleton manipulator using bidirectional triboelectric sensors enhanced multiple degree of freedom sensory system", Nat. Commun., vol.12, 2692, 2021.
[5] J. Zhu, Z. Ren, and C. Lee, "Toward Healthcare Diagnoses by Machine-Learning-Enabled Volatile Organic Compound Identification", ACS Nano, vol. 15, no.1, 894-903, 2021.
[6] J. Wei, Y. Li, L. Wang, W. Liao, B. Dong, C. Xu, C. Zhu, K.-W. Ang, C.-W. Qiu and C. Lee, "Zero-bias mid-infrared graphene photodetectors with bulk photoresponse and calibration-free polarization detection", Nat. Commun., vol.11, 6404, 2020.
[7] T. Jin, Z. Sun, L. Li, Q. Zhang, M. Zhu, Z. Zhang, G. Yuan, T. Chen, Y. Tian, X. Hou and C. Lee, "Triboelectric Nanogenerator Sensors for Soft Robotics Aiming at Digital Twin Applications", Nat. Commun., vol. 11, 5381, 2020.
[8] Q. Shi, Z. Zhang, T. He, Z. Sun, B. Wang, Y. Feng, X. Shan, B. Salam, and C. Lee, "Deep learning enabled smart mats as a scalable floor monitoring system", Nat. Commun., vol. 11, 4609, 2020.
[9] B. Dong, Q. Shi, T. He, S. Zhu, Z. Zhang, Z, Sun, Y, Ma, D, Kwong, and C. Lee, "Wearable Triboelectric/Aluminum Nitride Nano-Energy-Nano-System with Self-Sustainable Photonic Modulation and Continuous Force Sensing", Adv. Sci, vol.7, no.15, 1903636, 2020.
[10] F, Wen, Z, Sun, T, He, Q, Shi, M. Zhu, Z, Zhang, L, Li, T, Zhang, and C. Lee, "Machine Learning Glove Using Self-powered Conductive Superhydrophobic Triboelectric Textile for Gesture, Recognition in VR/AR Applications", Adv. Sci, vol.7, no.14, p. 2000261, 2020.
[11] B, Dong, Y, Yang, Q, Shi, S, Xu, Z, Sun, S, Zhu, Z, Zhang, D, Kwong, G, Zhou, K, Ang, and C. Lee, "Wearable Triboelectric-Human-Machine Interface (THMI) Using Robust Nanophotonic Readout", ACS Nano, vol. 14, pp 8915-8930, 2020.
[12] M, Zhu, Z, Sun, Z, Zhang, Q, Shi, T, He, H, Liu, T, Chen, and C, Lee, "Haptic-Feedback Smart Glove as A Creative Human Machine Interface (HMI) for 4 Virtual/Augmented Reality Applications", Sci. Adv., vol 6, no.19, eaaz8693, 2020.
[13] T, He, H, Wang, J, Wang, X, Tian, F, Wen, Q, Shi, J, Ho, and C, Lee, "Self-Sustainable Wearable Textile Nano-Energy Nano-System (NENS) for Next-Generation Healthcare Applications", Adv. Sci., vol.6, no.24, 1901437, 2019.
[14] Q, Shi and C, Lee, "Self-Powered Bio-Inspired Spider-Net-Coding Interface Using Single-Electrode Triboelectric Nanogenerator", Adv. Sci., vol. 6, no. 15, p. 1900617, 2019.
[15] J. Wang, H. Wang, T. He, B. He, N. Thakor, and C, Lee, "Investigation of Low-current Direct Stimulation for Rehabilitation Treatment Related to Muscle Function Loss Using Self-powered TENG System", Adv. Sci., vol. 6, no. 14, 1900149, 2019.
[16] S. Lee, H. Wang, W. Y. X. Peh, T. He, S.-C. Yen, N. V. Thakor, and Chengkuo Lee, "Mechano-neuromodulation of autonomic pelvic nerve for underactive bladder: A triboelectric neurostimulator integrated with flexible neural clip interface", Nano Energy, vol. 60, p.449-456, 2019.
[17] M. Zhu, Q. Shi, T. He, Z. Yi, Y. Ma, B. Yang, T. Chen, and C, Lee, "Self-Powered and Self-Functional Cotton Sock Using Piezoelectric and Triboelectric Hybrid Mechanism for Healthcare and Sports Monitoring", ACS Nano, vol. 13, no. 2, pp. 1940-1952, 2019.
[18] J. Wang, H. Wang, N. Thakor, and C. Lee, "Self-Powered Direct Muscle Stimulation Using a Triboelectric Nanogenerator (TENG) Integrated with a Flexible Multiple-Channel Intramuscular Electrode", ACS Nano, vol. 13, no. 3, pp. 3589-3599, 2019.
[19] L. Huang, B. Dong, X, Guo, Y, Chang, N, Chen, X, Huang, W, Liao, C, Zhu, H. Wang, C, Lee and K.-W. Ang, "Waveguide-Integrated Black Phosphorus Photodetector for Mid-Infrared Applications", ACS Nano, vol.13, pp.913-921, 2019.
[20] T, Chen, Q, Shi, M, Zhu, T, He, L, Sun, L, Yang, and C. Lee, "Triboelectric Self-Powered Wearable Flexible Patch as 3D Motion Control Interface for Robotic Manipulator", ACS Nano, vol. 12, no. 11, pp. 11561-11571, 2018.
[21] M, Manjappa, P, Pitchappa, N, Singh, N, Wang, N, Zheludev, C. Lee, and Ranjan Singh, "Reconfigurable MEMS Fano metasurfaces with multiple-input-output states for logic operations at terahertz frequencies", Nature Commun., vol. 9, 4056, 2018.
[22] L, Chen, Q, Shi, Y, Sun, T, Nguyen, C. Lee, and S, Soh, "Controlling Surface Charge Generated by Contact Electrification: Strategies and Applications", Adv. Mater., vol. 30, no. 47, p. 1802405, 2018.
[23] D, Hasan, and C. Lee, "Hybrid Metamaterial Absorber Platform for Sensing of CO2 Gas at Mid-IR", Adv. Sci., vol. 5, no. 5, p. 1700581, 2018.
[24] J. Wang, X. Y. Thow, H. Wang, S. Lee, K. Voges, N. V. Thakor, S.-C. Yen, and Chengkuo Lee, "A Highly-Selective 3D Spiked Ultraflexible Neural (SUN) Interface for Decoding Peripheral Nerve Sensory Information", Adv. Healthcare Mat., vol. 7, no. 5, p. 1700987, 2018.
[25] F. Hassani, R. Mogan, G. Gammad, H. Wang, S. Yen, N. Thakor, and C. Lee, "Toward a Self-Control System for a Neurogenic Underactive Bladder - A Triboelectric Nanogenerator Sensor Integrated with a Bi-Stable Micro-Actuator", ACS Nano, vol. 12, no. 4, pp. 3487−3501, 2018.
[26] F. Hassani, W. Y. X. Peh, G. G. L. Gammad, R. P. Mogan, T. K. Ng, T. L. C. Kuo, L. G. Ng, P. Luu, S.-C. Yen, and C. Lee, "A Three-Dimensionally (3D) Printed Implantable Device for Voiding the Bladder using Shape Memory Alloy (SMA) Actuators", Adv. Sci., 1700143, 2017.
[27] S. Lee, W. Y. X. Peh, J. Wang, F. Yang, J. S. Ho, N. V. Thakor, S.-C. Yen, and C. Lee, "Toward Bioelectronic Medicine Neuromodulation of Small Peripheral Nerves Using Flexible Neural Clip (FNC)", Adv. Sci., vol. 4, 1700149, 2017.
[28] H. Wang, G. Pastorin and C. Lee, "Toward Self-powered Wearable Adhesive Skin Patch with Bendable Microneedle Array for Transdermal Drug Delivery", Adv. Sci., vol. 3, no. 9, 1500441, 2016.
[29] Z. Xiang, S. Sheshadri, S.-H. Lee, . Wang, N. Xue, N. V. Thakor, S.-C. Yen and C. Lee, "Mapping of Small Nerve Trunks and Branches Using Adaptive Flexible Electrodes", Adv. Sci., vol.3, no. 9, 1500386, 2016.
[30] Z. Xiang, S.-C. Yen, S. Sheshadri, J. Wang, S. Lee, Y.-H. Liu, L.-D. Liao, N. V. Thakor and C. Lee, "Progress of Flexible Electronics in Neural Interfacing - A Self-Adaptive Non-Invasive Neural Ribbon Electrode for Small Nerves Recording", Adv. Mater., vol. 28, No.22, pp. 4472-4479, 2016.
专利
获得授权专利超过35项
