潘挺睿

潘挺睿教授是清华大学长聘教授、博士生导师，美国医学与生物工程院（AIMBE）和英国皇家化学学会（RSC）Fellow，教育部长江学者讲座教授，国家级重大人才计划入选者。归国前，担任美国加州大学戴维斯分校微纳制造中心（CNM²）主任与生物医学工程系终身正教授，创建加州大学微纳创新实验室（MiNI Lab）与加州大学宏伟国际研究交流项目（GREAT Program）。历任IEEE Transactions on Biomedical Engineering、 Springer-Nature Annals of Biomedical Engineering、ASME Journal of Medical Devices、BMC Chinese Medicine等国际知名期刊副主编，及Biosensors and Bioelectronics执行特刊主编。荣获美国科学基金会杰出青年奖（CAREER）、美国科学基金会前沿科学奖（EFRI）及全球消费电子（CES）创新奖等荣誉。潘挺睿教授于2011年在国际上首次提出柔性离电传感机理（Flexible Iontronic Sensing|FITS），被国际知名学术期刊《Advanced Materials》和《Chemical Society Reviews》评为第四代触觉传感核心技术，该项技术被认为是“柔性传感第一次真正逼近人类皮肤感知能力”的关键路径。团队长期聚焦三大前沿科学研究领域：触觉智能与离电感知，医疗器械与具身智能，生物合成与微流控芯片。其中多项研究成果已成功实现转化。于加州首创的TacSense（钛深科技）已成为全球触觉传感与智能感知领域的领军企业；归国后，先后创建广东省“触觉AI赋能”工程中心及苏州市“医疗传感与器械”重点实验室（iMED），并联合创建华西医疗机器人研究院（PITech），已发展为新型医工技术转化的领军研发机构。团队在Nature和Science系列等高水平期刊发表论文100余篇，拥有数十项国际专利授权，毕业生遍布全球各大著名企业与知名高校。

明尼苏达大学，电子工程专业，哲学博士

明尼苏达大学，生物医学工程专业，科学硕士

清华大学，热能工程专业，工程学士

2026年3月-至今，清华大学，长聘教授

2021年3月-2026年3月，中国科学技术大学，讲席教授

2006年7月-2021年3月，加州大学戴维斯分校，助理教授/副教授/正教授

2017-presentFellow, American Institute for Medical and Biological Engineering (AIMBE)

2018-presentFellow, Royal Society of Chemistry (RSC)

2009-presentAssociate Editor, Springer-Nature Annals of Biomedical Engineering (ABME)

2017-2019Associate Editor, IEEE Transactions on Biomedical Engineering (TBME)

2019-presentEditorial Board Member, Springer-Nature Chinese Medicine

2021-presentEditorial Board Member, MDPI Bioengineering

2022-presentHonorary Chairman, Shanghai Rehabilitation Alliance

2023-present Executive Committee Member, Intelligent Cardiovascular Disease Division of the China Medical Education Association

2023-present Council Member, Biosensing, Biochip, and Nanobiotechnology Division of China Association of Biotechnology

2023-presentCouncil Member, BioMEMS Division of China Micro and Nanotechnology Association

2023-present Council Member, Translational Division of China Medical Device Industrial Association

2024-presentAssociate Editor, ASME Journal of Medical Devices (JMED)

2024-presentChairman, IT-BT Division of China Medical Device Industrial Association

1. Y. Chang, Y. Cheng, R. Jia, R. Wang, Q. Xu, L. Gong, Y. Wei, B. Tang, C. Guo, B. Sun, X. He, X. Li, L. Gong, H. Ye, X. Wang, Y. Dai, M. Dong, Y. Tang, F. Zhang, P. Tan†, and T. Pan†, “Unified iontronic sensing for operando monitoring of physical-chemical events in lithium-ion batteries,” National Science Review, vol. 12 (6), nwaf151, 2025.

2. Y. Li, N. Bai, Y. Chang, Z. Liu, J. Liu, X. Li, W. Yang, H. Niu, W. Wang, L. Wang, W. Zhu, D. Chen, T. Pan†, C. F. Guo†, and G. Shen†, “Flexible iontronic sensing,” Chemical Society Reviews, vol. 54 (10), 4651-4700, 2025.

3. M. Deng, C. Du, J. Fang, C. Xu, C. Guo, J. Huang, K. Li, L. Chen, Y. Chang†, and T. Pan†, “Flexible Adaptive Sensing Tonometry for Medical-Grade Multi-parametric Hemodynamic Monitoring,” npj Flex. Electron., vol. 8, 45, July 2024.

4. B. Li, R. Ge, W. Du, Z. Wang, T. Peng, R. Wang, Y. Chang, and T. Pan†, “iWood: An Intelligent Iontronic Device for Human‐Wood Interactions,” Adv. Funct. Mater., vol. 34(25), March 2024. (Featured as an Inside Back Cover Image)

5. S. Li, J. Huang, M. Wang, K. Deng, C. Guo, B. Li, Y. Cheng, H. Sun, H. Ye, T. Pan†, and Y. Chang†, “Structural Electronic Skin for Conformal Tactile Sensing,” Adv. Sci., vol. 10, 2304016, September 2023. (Featured as a Cover Image)

6. Y. Cheng, C. Guo, S. Li, K. Deng, J. Tang, Q. Luo, S. Zhang, Y. Chang, and T. Pan†, Aquatic Skin Enabled by Multi‐Modality Iontronic Sensing, Adv. Funct. Mater., 2205947, September 2022.

7. J. Tang, C. Zhao, Q. Luo, Y. Chang†, Z. Yang†, and T. Pan†, Ultrahigh-transparency and pressure-sensitive iontronic device for tactile intelligence, npj Flex. Electron., vol. 6, 54, June 2022.

8. C. Chen, Z. Zhang, K. Deng, D. Wang, H. Ke, L. Cai, C. Chang, and T. Pan†, “Blink-Sensing Glasses: A Flexible Iontronic Sensing Wearable for Continuous Blink Monitoring,” Cell iScience, vol. 24, 102399, May 2021.

9. Y. Chang, L. Wang, R. Li, Z. Zhang, Q. Wang, J. Yang, C. Guo, and T. Pan†, ”First Decade of Interfacial Iontronic Sensing: From Droplet Sensors to Artificial Skins,” Adv Mater, vol. 33, pp. 20364, Feb 2021

10. N. Pan, and T. Pan, On the Sensory Analysis of Matter and Materials, Matter, vol. 1, pp. 13-16, July 2019.

11. Z. Zhang, Z. Zhu, B. Bazor, S. Lee, Z. Ding, and T. Pan†, “FeetBeat: A Flexible Iontronic Sensing Wearable Detects Pedal Pulses and Muscular Activities,” IEEE Transactions on Biomedical Engineering, vol. 66(11), pp. 3072-3079, February 2019.

12. S. Li, N. Pan, Z. Zhu, R. Li, B. Li, J. Chu, G. Li, Y. Chang†, and T. Pan†, “All-in-One Iontronic Sensing Paper,” Adv Funct Mater, vol. 29(11), 1807343, Jan 2019. (Featured as a Cover Image)

13. J. Heikenfeld, A. Jajack, J. Rogers, P. Gutruf, L. Tian, T. Pan†, R. Li, M. Khine, J. Kim, J. Wang, and J. Kim, “Wearable Sensors: Modalities, Challenges, and Prospects,” Lab Chip, vol. 18, pp. 217-248, Jan 2018. (Featured as a Cover Image)

14. Z. Zhu, R. Li, and T. Pan†, “Imperceptible Epidermal-Iontronic Interface for Wearable Sensing,” Adv Mater, vol. 30, 1705122, pp. 1-9, Jan 2018. (Featured as a Cover Image)

15. R. Li, Y. Si, Z. Zhu, Y. Guo, Y. Zhang, N. Pan, G. Sun, and T. Pan†, “Supercapacitive Iontronic Nanofabric Sensing,” Adv Mater, vol. 29, 1700253, pp. 1-8, April 2017. (Featured as a Cover Image)

16. Y. Yang, S. Xing, Z. Fang, and T. Pan†, “Wearable Microfluidics: Fabric-based Digital Droplet Flowmetry for Perspiration Analysis,” Lab Chip, vol. 17, pp. 926-935, Feb 2017.

17. R. Li, B. Nie, C. Zhai, J. Cao, J. Pan, Y. Chi, and T. Pan†, “Telemedical Wearable Sensing Platform for Management of Chronic Venous Disorder,” Ann Biomed Eng, vol. 44, pp. 2282-2291, July 2016.

18. B. Nie, R. Li, J. Cao, J. D. Brandt, and T. Pan†, “Flexible Transparent Iontronic Film for Interfacial Capacitive Pressure Sensing,” Advanced Materials, vol. 27(39), pp. 6055-6062, Oct 2015.

19. R. Li, B. Nie, P. Digiglio, and T. Pan†, “Microflotronics: A Flexible, Transparent, Pressure-Sensitive Microfluidic Film,” Adv Funct Mater, vol. 24(39), pp. 6195-6203, Oct 2014. (Featured as a Cover Image)

20. B. Nie, R. Li, J. D. Brandt, and T. Pan†, “Microfluidic Tactile Sensors for Three-Dimensional Contact Force Measurements,” Lab Chip, vol. 14(22), pp. 4344-4353, Oct 2014. (Featured as a Cover Image)

21. B. Nie, R. Li, J. D. Brandt, and T. Pan†, “Iontronic Microdroplet Array for Flexible Ultrasensitive Tactile Sensing”, Lab Chip, vol. 14, pp. 1107-1116, February 2014. (Featured as a Cover Image)

22. B. Nie, S. Xing, J. D. Brandt, and T. Pan†, “Droplet-Based Interfacial Capacitive Sensing,” Lab Chip, vol. 12, pp. 1110-1118, March 2012.

2024Distinguished Visiting Professorship, University of Macau

2024Academy of Interdisciplinary Research Fellowship, Hong Kong Polytechnic Univ

2024Model Worker of Year 2024, Suzhou Industrial Park

2023 The First Award of Innovation Competition, 2023 CRME & RTR

2023 Top 10 Medical Innovations Award, Health China Sinan Summit 2023

2022ChangJiang Scholar Chaired Professor (full-time), Department of Education of China

2021International Distinguished Scholar, Suzhou Industrial Park

2020Innovation Award Honoree, Consumer Electronic Show

2019ChangJiang Scholar Chaired Professor (part-time), Department of Education of China

2018Elected Fellow, Royal Society of Chemistry (RSC)

2018Innovation Award – Hardware, Greater Sacramento Region

2017Elected Fellow, American Institute for Medical & Biological Engineering (AIMBE)

2017Finalist of Best Paper Awards, IEEE NEMS Annual Conference 

2016Oversea Outstanding Collaborative Award, Natural Science Foundation of China

2016Paper of Distinction Award, ITAA Annual Conference

2012Most Cited Review Article Award, Annals of Biomedical Engineering

2011Outstanding Young Faculty Award, UC Davis Engineering

2010Outstanding Service Award, UC Davis Continuing and Professional Education

2009NSF CAREER Award, National Science Foundation

2009NSF EFRI Award, National Science Foundation

2009Innovation Award, Xerox Foundation