熊泽,博士,上海科技大学生物医学工程学院常任轨助理教授 (Tenure-track Assistant Professor)、研究员、博导、独立课题组组长(Principal Investigator, PI)、无线与智能生物电子实验室(Wireless and Smart Bio-electronics – WiSe Lab)主任。熊泽博士于香港大学(The University of Hong Kong)获得博士学位,导师:Prof. Jinyao Tang(杰青、香港青年科学院院士),随后前往新加坡国立大学(National University of Singapore)依托电子与计算机工程系、N.1健康研究所、健康创新与科技研究所(iHealthtech)以及生物医学工程系从事博士后研究,合作导师:Prof. Chwee Teck Lim(英国皇家学会、新加坡科学院、新加坡工程院院士,AIMBE Fellow、IAMBE Fellow、NAI Fellow)、Prof. Benjamin C. K. Tee和Prof. John S. Ho。
熊泽博士致力于通过无线与智能生物电子技术赋能智能化临床诊疗和个人健康管理。目前已在Nature Biomedical Engineering、Nature Materials、Nature Nanotechnology、Science Advances、Nature Communications、Advanced Materials、ACS Nano、Accounts of Chemical Research等期刊发表高水平论文50余篇,成果得到Reuters、Scientific American、AAAS、AIChE、人民日报、新华社等国内外知名媒体的广泛报道;申请、授权专利7项(含PCT专利2项,美国专利1项);受邀撰写英文著作1章;在国内外学术会议或论坛上做受邀和口头报告50余次。熊泽博士入选中国新锐科技人物杰出成就奖、微系统与纳米工程(MINE)青年科学家奖、上海市领军人才、明珠菁英人才、iCANX Young Scientist Award Finalist、JMCC Emerging Investigator、IEEE Senior Member、Swissnex Fellow。
教育及工作经历:
2017年博士毕业于香港大学(导师:Jinyao Tang教授)。
随后前往新加坡国立大学从事博士后研究(合作导师:John S. Ho教授、Benjamin C.K. Tee教授。
学术兼职:
1、Senior Member of Institute of Electrical and Electronics Engineers (IEEE),电气电子工程师学会 (IEEE) 高级会员。
2、Member of the Subcommittee on Brain-Computer Interface Biomaterials of the Chinese Society for Biomaterials,中国生物材料学会在脑机接口生物材料分会任委员 (中国生物材料学会脑机接口生物材料分会第1届委员)。
3、Member of the Specialized Committee on Digital Intelligence Integration of the World Association of Young Scientists,世界青年科学家协会数字智能融合专委会任委员(世界青年科学家联合会数智融合第1届专委会委员)。
4、Member of the Specialized Committee on Science and Technology Innovation in Medical Devices of the China Technology Market Association,中国技术市场协会医疗器械科技创新专委会任委员(中技协医疗器械科技创新专委会委员)。
5、Member of the Wearable Medical Devices Committee of the Shanghai Society for Mathematical Medicine,上海数学医学学会可穿戴医疗设备委员会会员 (上海市数理医学学会可穿戴医疗设备第1届专委会委员)。
6、Youth Member of the Nanomedicine Oncology Committee, Chinese Anti-Cancer Association,中国抗癌协会纳米医学肿瘤委员会青年委员(中国抗癌协会纳米肿瘤学专委会第3届青年委员会委员)。
7、Technical Committee Member of 8th International Conference on Robotics, Control and Automation Engineering (RCAE 2025),第八届机器人、控制与自动化工程国际会议 (RCAE 2025) 技术委员会委员。
8、Life Member of World Association for Chinese Biomedical Engineers (WACBE), 世界中国生物医学工程师协会 (WACBE) 终身会员。
9、Consulting Committee Member of China Science Communication,中国科学传播咨询委员会委员。
10、Member of the Brain-Computer Interface and Interaction Subcommittee, Chinese Neuroscience Society,中国神经科学会脑机接口与交互分会任委员。
11、Member of Institute of American Association for the Advancement of Science (AAAS),美国科学促进会(AAAS)成员。
12、Member of Materials Research Society (MRS),材料研究学会 (MRS) 会员。
13、Member of American Chemical Society (ACS),美国化学学会 (ACS) 会员。
14、Member of The Royal Society of Chemistry (RSC),英国皇家化学学会(RSC)会员。
15、Associate Editor of Smart Sensors,《智能传感器》副主编。
16、Editorial Board Member of International Journal of Biomedical Engineering,《国际生物医学工程杂志》编委会成员。
17、Youth Editorial Board Member of Med-X,《Med-X》青年编委会成员。
18、Youth Editorial Board Member of FlexMat,FlexMat青年编委会成员。
19、Youth Editorial Board Member of The Innovation Materials,《创新材料》青年编委。
20、Leading Guest Editor of Frontiers in Robotics and AI (IF=4.3),《机器人与人工智能前沿》客座主编 (IF=4.3)。
21、Leading Guest Editor and Reviewer Board Member of Micromachines (IF=2.9),《微机械》客座主编及审稿委员会成员 (IF=2.9)。
22、Reviewer Board Member of Biosensors (IF=5.4), 《生物传感器》审稿委员会成员 (IF=5.4)。
研究领域:
生物-电子界面
医用柔性器件
无线诊疗系统
无线微纳机器
智能响应材料
承担科研项目情况:
主持青年科学基金(B类)(原优秀青年科学基金)、国自然面上、上海市科委国际合作等项目。
发明专利:
14. Wound Monitoring System and Sensor Thereof. J. Ho, Z. Xiong, S. Achavananthadith, S. Lian (PCT/SG2022/050571).
13. Wirelessly Triggered Device. J. Ho, V. Kalidasan, X. Yang, Z. Xiong (PCT/SG2020/050643).
12. Graphene-Semiconductor Based Wavelength Selective Photodetector for Sub-Bandgap Photo Detection. J. Tang, Z. Xiong, J. Chen (US10755866B2).
11. 一种自烧结可打印的液态金属-蒙脱石复合导电油墨及其制备方法和应用。熊泽,崔子昂(CN202510992293.4)
10. 一种基于门控时空调制与双向状态空间模型的脑电信号识别方法。熊泽,黎子滔(CN202610257126.X)
9. 一种超薄柔性微电极阵列制造、释放及 转移方法。熊泽,温星明(CN202610432072.6)
8. 一种面向悬浮培养类器官的三维微电极阵列平台。熊泽,温星明(CN202610432074.5)
7. 一种面向具身智能应用的多模态电子皮肤及其制备方法。熊泽、邹秉谕(CN202610515003.1)
6. 一种基于激光激活可打印电子油墨的电子织物制备方法。熊泽、浦入予(CN202610514846.X)
5. 一种基于3D打印微球阵列的超声触发可控释药系统及其制备方法。熊泽、丁芯(CN202610548089.8)
4. 一种无电池多路复用伤口监测贴片及其制备方法。熊泽、顾嘉玥(CN202610548074.1)
3. 石英晶体微天平谐振频率检测系统、控制方法及终端。林铠战,朱皓天,熊泽 (CN202510958830.3)
2. 具有内禀铁磁性的ZnO基稀磁半导体薄膜及其制备方法。熊泽,刘学超,卓世异,孔海宽,杨建华,施尔畏(CN102676994 B)
1. 改进型卧式球磨机。卓世异,刘学超,熊泽,孔海宽,黄维,施尔畏 (CN203235523 U)
出版专著:
Two-Dimensional Materials and Hybrid Systems for Photodetection. Chapter 15 of Synthesis, Modeling, and Characterization of 2D Materials, and Their Heterostructures.
代表性论文: 代表性研究成果 (*: 通讯作者;#: 共同一作):
66. J. Gu, X. Wen, Q. Yan, Y. Zhao, L. Yuan, S. Chen, Y. Ma, Z. Fang, D. Lei*, Y. Liu*, Z. Xiong*, Body-integrated photonic biosensors: Illuminating the path to active healthcare, FlexMat, 2026.
65. Z. Li, J. Gu, Z. Huang, Z. Xiong*, LS-Mamba: Gated Spatio-Temporal Modulation and Bidirectional State Space Modeling for EEG Emotion Recognition (accepted).
64. Zhipeng Li;Zhu Liu;Zhen Wang;Yikuan Deng;Shuihua Yang;Jianfeng Chen;Qihang Zeng;Yuzhe Zhong;Haitao Yang;Ze Xiong;Xi Tian;Gaosheng Li;Yang Chen;Hui Jing;John Ho;Cheng-Wei Qiu*.Body sensor networks based on flexible topological clothing.Nature Electronics. 2026,9(1):59-68. DOI:10.1038/s41928-025-01516-w.
63. M. Han, B. Xue, X. Wang, X. Xiao, and Z. Xiong*, Weavable power: Advancing fiber fuel cells through Yarn@gels, The Innovation Materials, 2026, 4, 100195.
62. Kunfeng Liu;Rong Huang;Wanyuan Li;Jingsong Yao;Dapeng Lei;Guangdong Yang;Zhuochen Huang;Li Chen;Hao Sun;Ze Xiong;Jizhuang Wang;Jinyao Tang;Dan Li. Geometry‐Programmable Light‐Driven Silicon Microrobots.Advanced Materials.March 2026.38(20).DOI:10.1002/adma.202522384
61. X. Wen, Q. Chu, H. Xiong, W. Zhou, Z. Cui, and Z. Xiong*, A High-Density Floating Microelectrode Array for On-Chip Neural Signal Monitoring, IEEE NEMS 2026 (Selected as Best Student Paper).
60. J. Gu, L. Yuan, X. Wen, and Z. Xiong*, Battery-free and Multiplexed Photonic Sensor Patch for Wound Monitoring, IEEE NEMS 2026 (Selected as Best Student Paper).
59. X. Ding, X. Li, Z. Cui, J. Gu, Z. Xu, X. Wen, R. Pu, B. Cheng, and Z. Xiong*, 3D-Printed Microdevice for Ultrasound-Triggered, On-Demand Drug Release, IEEE NEMS 2026.
58. B., Z. Cui, Z. Li, G. Wang, Y. Yu, and Z. Xiong*, A 3D-Printing-Enabled Monolithic Electronic Skin for Multimodal Sensing, IEEE NEMS 2026.
57. R. Pu, Y. Chang, X. Wen, Z. Cui, and Z. Xiong*, Laser-Enabled Conductive Circuit Patterning for Wearable E-Textiles, IEEE NEMS 2026.
56. Z. Cui, Y. Zhang, S. Chen, X. Wen, Y. Zhao, Y. Ma, Q. Yan, Z. Wu, Y. He, G. Wang, Z. Tang, C. Xiao, Y. Yu, J. Li,* and Z. Xiong*, A printable liquid metal-montmorillonite ink for high-resolution stretchable bioelectronics, Journal of Materials Chemistry C, 2025, 13, 18638-18648 (Selected as cover work and JMCC Emerging Investigator Award).
55. X. Ju…Z. Xiong, M. Sitti, Bradley Nelson, S. Pane, L. Zhang, H. Shahsavan, Q. He, I. Kim, J. Wang, M. Pumera, Technology Roadmap of Micro/Nanorobots, ACS Nano 2025, 19( 27): 24174–24334 (MEGA Review).DOI:10.1021/acsnano.5c03911
54. W. Li, D. Lei, J. He, Z. Huang, S. Xiao, L. Ou, Z. Liang, K. Liu, Z. Xiong, J. Wang, J. Tang, D. Li, Opto-Ion-Exchange Enabled Active Swarming System, Advanced Materials 2025.
53. W. Wang, Q. Li, M. Gao, K. Wang, X. Wu, Z. Bai, Y. Liu, Q. Yan, Yuxi He, Z. Xiong, A. Shi, G. Yang, Z. Li, C. Hou, Q. Zhang, Y. Li, Y. Cheng, Kerui Li, H. Wang, Trimode Integrated Solar-Thermal Stacked Converters for Sustainable Active Buildings, ACS Sustainable Chemistry & Engineering, 2025.
52. M. Ali, B. Xie, P. Li, S. Chen, Y. Lu, F. Qi, Z. Xiong*, J. Li*, Botulinum toxin A prevents hypertrophic scarring by suppressing PARP14/SOCS2-mediated M2 polarization of macrophages, BBA – Molecular Cell Research, 2025.
51. Z. Liang, Q. Cao,W. Li, Y. Dai, Y. Zhao, L. Ou, D. Lei, K. Liu, C. Qin, Z. Huang, Z. Luo, Z. Xiong, G. Jiang, J. Wang, J. Tang, D. Li, MOF-based Magnetically-Manipulated Microwheel-Robots for Triglyceride Degradation, Matter, 2025, 102198.
50. Z. Hu, Y. Chen, J. Xu, J. Hao, H. Bao, X. Li, R. You, Z. Xiong, H. Yang, H. Xu, In-situ generation and stabilization of gas bubbles for multiphase catalysis, Journal of Colloid and Interface Science, 2025, 683, 300.
49. Y. Lu, L. Ma, H. Zhang, Y. Mei, Z. Xiong, E. Song, Soft wearable electronics for evaluation of biological tissue mechanics. Soft Science 2024, 4, 36.
48. W. Li, B. Liu, L. Ou, G. Li, D. Lei, Z. Xiong, H. Xu, J. Wang, J. Tang, D. Li, Arbitrary Construction of Versatile NIR-Driven Microrobots. Advanced Materials. 2024, 2402482.
47. Y. Gao, L. Ou, K. Liu, Y. Guo, W. Li, Z. Xiong, C. Wu, J. Wang, J. Tang, D. Li. Template-guided Silicon Micromotor Assembly for Enhanced Cell Manipulation. Angew. Chem. Int. Ed., 2024, e202405895.
46. Y. Jin, M. Yu, D. T. Nguyen, X. Yang, Z. Li, Z. Xiong, C. Li, Y. Liu, Y. L. Kong, J. S. Ho. Digitally-defined ultrathin transparent wireless sensor network for room-scale imperceptible ambient intelligence. npj Flexible Electronics, 2024, 8, 10.
45. Y. Gao, Y. Guo, Y. Yang, Y. Tang, B. Wang, Q. Yan, X. Chen, J. Cai, L. Fang, Z. Xiong, F. Gao, C. Wu, J. Wang, J. Tang, L. Shi, D. Li. Magnetically Manipulated Optoelectronic Hybrid Microrobots for Optically Targeted Non-genetic Neuromodulation. Advanced Materials, 2024, 36, 2305632.
44. W. Li, J. Wang*, Z. Xiong*, D. Li*. Micro/Nanorobots for Efficient Removal and Degradation of Micro/Nanoplastics. Cell Reports Physical Science, 2023, 101639.
43. W. Cheng#, X. Wang#, Z. Xiong#, J. Liu, Z. Liu, Y. Jin, H. Yao, T.-S. Wong, J. S. Ho & Benjamin C. K. Tee*. Frictionless Multiphasic Interface for Near-Ideal Aero-Elastic Pressure Sensing. Nature Materials, 2023, 22, 1352.
42. X. Tian, Q. Zeng, S. A. Kurt, R. R. Li, D. T. Nguyen, Z. Xiong, Z. Li, X. Yang, X. Xiao, C. Wu, Benjamin C. K. Tee, D. Nikolayev, C. J. Charles, J. S. Ho. Implant-to-implant wireless networking with metamaterial textiles. Nature Communications, 2023, 14, 4335.
41. Z. Li#, C. Li#, G. Xu, W. Chen, Z. Xiong*, H. Jing, J. S. Ho*, C. W. Qiu*. Synergetic Positivity of Loss and Noise in Nonlinear Non-Hermitian Resonators. Science Advances, 2023, 9, eadi0562.
40. X. Zheng, Z. Yang, L. Sutarlie, M. Thangaveloo, Y. Yu, N. Salleh, J. Chin, Z. Xiong, D. Becker, Benjamin C.K. Tee, X. Su. Battery-free and AI-enabled multiplexed sensor patches for wound monitoring. Science Advances, 2023, 9, eadg6670.
39. Z. Li, C. Li, Z. Xiong, G. Xu, Y. R. Wang, X. Tian, X. Yang, Z. Liu, Q. Zeng, R. Lin, Y. Li, J. K. W. Lee, J. S. Ho, and C. W. Qiu. Stochastic Exceptional Points for Noise-Assisted Sensing. Physical Review Letters, 2023, 130, 227201.
38. Z. Qiao, S. Chen, S. Fan, Z. Xiong, and C.T. Lim. Epidermal Bioelectronics for Management of Chronic Diseases: Materials, Devices and Systems. Advanced Sensor Research, 2023, 2200068.
37. H.J. Kim, W. Sritandi, Z. Xiong, and J. S. Ho. Bioelectronic Devices for Light-Based Diagnostics and Therapies. Biophysics Reviews, 2023, 4, 011304.
36. W. Li#, C. Wu#, Z. Xiong#, C. Liang, Z. Li, B. Liu, Q. Cao, J. Wang*, J. Tang*, D. Li*.Self-Driven Magnetorobots for Recyclable and Scalable Micro/Nanoplastics Removal from Non-Marine Waters. Science Advances, 2022, 8, ade1731.
35. S. Chen, S. Fan, J. Qi, Z. Xiong, Z Qiao, Z Wu, J. C. Yeo, C.T. Lim*. Ultrahigh Strain‐Insensitive Integrated Hybrid Electronics Using Highly Stretchable Bilayer Liquid Metal Based Conductor. Advanced Materials, 2022, 2208569.
34. K. Li#*, Z. Li#, Z. Xiong#, Y. Wang, H. Yang, W. Xu, L. Jing, M. Ding, J. Zhu, J. S. Ho, P. Y. Chen*. Thermal Camouflaging MXene Robotic Skin with Bio-Inspired Stimulus Sensation and Wireless Communication. Advanced Functional Materials, 2022, 2110534.
33. R. Lin, H.J. Kim, S. Achavananthadith, Z. Xiong, J. K. W. Lee, Y. L. Kong*, J. S. Ho*.Digitally-Embroidered Liquid Metal Electronic Textiles for Wearable Wireless Systems. Selected as an Editor’s Highlight.Nature Communications, 2022, 13, 2190.
32. Y. Gao, Z. Xiong, J. Wang, J. Tang and D. Li.Light Hybrid Micro/Nano-Robots: From Propulsion to Functional Signals.Nano Research, 2022.
31. Z. Xiong#*, S. Achavananthadith#, S. Lian#, J. S. Ho* et al.A Wireless and Battery-Free Wound Infection Sensor Based on DNA Hydrogel. Science Advances, 2021, 7, eabj1617.
30. V. Kalidasan#*, X. Yang#, Z. Xiong#*, J. S. Ho* et al.Wirelessly Operated Bioelectronic Sutures for the Monitoring of Deep Surgical Wounds. Nature Biomedical Engineering, 2021, 5, 1217.
29. J. Wang#, Z. Xiong#*, J. Tang*,The Encoding of Light‐Driven Micro/Nanorobots: from Single to Swarming Systems, Advanced Intelligent Systems, 2021, 3, 2000170.
28. J. Wang#, Z. Xiong#*, M. Liu, X. Li, J. Zheng, X. Zhan, W. Ding, J. Chen, X. Li, X. Li, S. Feng, J. Tang*,Rational Design of Reversible Redox Shuttle for Highly Efficient Light-Driven Microswimmer, ACS Nano, 2020, 14, 3, 3272.
27. A. C. Patil, Z. Xiong, N. V. Thakor*.Toward Nontransient Silk Bioelectronics: Engineering Silk Fibroin for Bionic Links.Small Methods, 2020, 4, 2000274.
26. F. Yang, B. O. Raeker, D. T. Nguyen, J. D. Miller, Z. Xiong, A. Grbic, and J. S. Ho*.Antireflection and Wavefront Manipulation with Cascaded Metasurfaces.Physical Review Applied, 2020, 14, 064044.
25. X. Zhan, J. Wang, Z. Xiong, X. Zhang, Y. Zhou, J. Zheng, J. Chen, S. Feng, J. Tang*.Enhanced ion Tolerance of Electrokinetic Locomotion in Polyelectorlyte-Coated Microswimmer. Nature Communication, 2019, 3921.
24. J. Zheng, J. Wang, Z. Xiong, Z. Wan, Z. Zhang, S. Yang, J. Chen, J. Dai, J. Tang*.Full Spetrum Tunable Visible-Light-Driven Alloy Nanomotor.Advanced Functional Materials, 2019, 1901768.
23. P. Lee#, Z. Xiong#, J. Ho*,Methods for Powering Bioelectronic Microdevices, Bioelectronics in Medicine, 2018, 1, 3, 0005.
22. J. Wang#, Z. Xiong#, J. Zheng, X. Zhan, J. Tang*,Light-Driven Micro/Nanomotor for Promising Biomedical Tools: Principle, Challenge, and Prospect, Accounts of Chemical Research, 2018, 51, 9, 1957.
21. Z. Xiong, X. Wang, K. Lee, X. Zhan, Y. Chen, J. Tang*, Thermal Transport in Supported Graphene Nanomesh,ACS Applied Materials & Interface, 2018, 10, 11, 9211.
20 Z. Xiong, J. Chen, J. Wang, Y. Cai, X. Liu, Z. Su, S. Xu, A. Khan, W. Li, J. Bian, G. Li, M. Huang, J. Tang*,Electrochemical Half-Reaction-Assisted Sub-Bandgap Photon Sensing in a Graphene Hybrid Photodetector, NPG Asia Materials, 2017, 9, e436.
19. J. Wang#, Z. Xiong#, X. Zhan, B. Dai, J. Zheng, J. Liu, and J. Tang*,A Silicon Nanowire as a Spectrally Tunable Light-Driven Nanomotor, Advanced Materials, 2017, 29, 1701451.
18. Z. Xiong, Y. Cai, X. Ren, B. Cao, Z. Huo, J. Tang*,Superlattice Nanowire Produced by Cation Exchange Reaction with Enhanced Thermoelectric Property, ACS Applied Materials & Interfaces, 2017, 9, 38, 32424.
17. J. Zheng, B. Dai, J. Wang, Z. Xiong, Y. Yang, J. Liu, X. Zhan, J. Tang*,Orthogonal Navigation of Multiple Visible-Light-Driven Artificial Microswimmers, Nature Communication, 2017, 1438.
16. Z. Su, H. Ye, Z. Xiong, Q. Lou, Z. Zhang, F. Tang, J. Tang, J. Dai, C. Shan, S. Xu*. Understanding and Manipulating Luminescence in Carbon Nanodots, Carbon, 2017, 126, 58.
15. J. Bian, L. Xi, J. Li, Z. Xiong, C. Huang, K. Lange, J. Tang, M. Shalom, R. Zhang*, C=C π Bond Modified Graphitic Carbon Nitride Films for Enhanced Photoelectrochemical Cell Performance, Chemistry – An Asian Journal, 2017, 12 (9).
14. A. Khan, S. Lee, T. Jang, Z. Xiong, C. Zhang, J. Tang, L. Guo, and W. Li*, Scalable Solution-Processed Fabrication Strategy for High-Performance, Flexible, Transparent Electrodes with Embedded Metal Mesh, Journal of Visualized Experiments, 2017. (Link)
13. B. Dai, J. Wang, Z. Xiong, X. Zhan, W. Dai, C. Li, S. Feng, and J. Tang*,Programmable Artificial Phototactic Microswimmer, Nature Nanotechnology, 2016, 11.
12. A. Khan, S. Lee, T. Jang, Z. Xiong, C. Zhang, J. Tang, L. Guo, and W. Li*,High-Performance Flexible Transparent Electrode with an Embedded Metal Mesh Fabricated by Cost-Effective Solution Process, Small, 2016, 12 (22).
11. H. Chen, X. Liu*, S. Zhou, Z. Xiong, R. Zhou, F. Li, E. Shi, Zinc Vacancy and Erbium Cluster Jointly Promote Ferromagnetism in Erbium-Doped ZnO Thin Film, AIP Advances, 2014, 4 (4).
10. Z. Xiong, X. Liu*, S. Zhuo, J. Yang, E. Shi, W. Yan, S. Yao, and H. Pan,Influence of Ga Doping on Cr Valence State and Ferromagnetism in Cr:ZnO Films, Applied Physics Letters, 2013, 102, 022414.
9. H. Chen, X. Liu*, S. Zhou, Z. Xiong, R. Zhou, J. Yang, E. Shi,The Dual Effects of Al-Doping on the Ferromagnetism of Zn0.98–yEr0.02AlyO Thin Films, AIP Advances, 2013, 3 (8).
8. S. Zhuo, X. Liu*, Z. Xiong, J. Yang, E. Shi,Ionized Zinc Vacancy Mediated Ferromagnetism in Copper Doped ZnO Thin Films, AIP Advances, 2012, 2 (1).
7. S. Zhuo, X. Liu*, Ze Xiong, J. Yang and E. Shi,Defects Enhanced Ferromagnetism in Cu-doped ZnO Thin Films, Solid State Communications, 2012, 152, 257.
6. S. Zhuo, X. Liu*, Z. Xiong, W. Yan, J. Xin, J. Yang and E. Shi,Defects Mediated Ferromagnetism in V-doped 6H-SiC Single Crystal, Chinese Physics B, 2012, 21 (6).
5. S. Chang, X. Liu*, W. Huang, Z. Xiong, J. Yang and E. Shi,Fabrication of Ti Ohmic Contact to n-Type 6H-SiC without High-Temperature Annealing, Chinese Physics B, 2012, 21 (9).
4. S. Zhuo, X. Liu*, Z. Xiong, J. Yang, E. Shi, Defect Study at the Surface of (Cu,Al)-Doped ZnO Thin Film by Raman Spectra, Chinese Journal of Luminescence, 2012, 33(1).
3. Z. Xiong, X. Liu*, S. Zhuo, J. Yang, E. Shi, and W. Yan,Oxygen Enhanced Ferromagnetism in Cr-Doped ZnO Films, Applied Physics Letters, 2011, 99, 052513.
2. S. Zhuo, X. Liu*, Z. Xiong, J. Yang, and E. Shi,Multi-Roles of Cu Ions in the Ferromagnetic Properties of (Cu, Al)-Codoped ZnO Thin Films, Journal of Crystal Growth, 2011, 332, 39.
1. S. Zhuo, X. Liu*, Z. Xiong, Z. Chen, J. Yang, E. Shi,Recent Progress on Non-Magnetic Elements Doped ZnO Diluted Magnetic Semiconductors, Journal of Synthetic Crystals, 2011, 40 (4).
学术报告:
65. Z. Xiong.Invited Talk hosted by Prof. Pingan Zhu, CityUniversity of Hong Kong, Hong Kong, China, Apr. 2026.Wireless and Flexible Bioelectronics for Digital Wound Management.
64. Z. Xiong.The 9th China-America Frontiers of Engineering Symposium, Hong Kong, China, Apr. 2026.(Invited) Wireless and Flexible Bioelectronics for Digital Wound Management.
63. Z. Xiong.AI + New Materials Conference, Guangzhou, China, Apr. 2026.(Invited) AI + Bionic Flexible Electronics Empower Intelligent Diagnosis and Treatment.
62. Z. Xiong.The Wearable Technologies Symposium of the Shanghai Society for Mathematical Medicine, Shanghai, China, Apr. 2026.(Invited) Wearable Electronics for AI-Enabled Intelligent Diagnosis and Treatment.
61. Z. Xiong.International Conference on Materials Science & Engineering, Stockholm, Sweden, Mar. 2026.(Invited) Wireless and Flexible Bioelectronics for Digital Wound Management.
60. Z. Xiong.China Medical Equipment Conference, Chongqing, China, Mar. 2026. (Keynote) AI Theranostics Enabled by Flexible Electronics.
59. Z. Xiong.Shanghai Pancreas Researchers Innovation Forum, hosted by Shanghai General Hospital, Shanghai, China, Feb. 2026.(Invited) AI-Powered Flexible Electronics Support Tumor Patient Rehabilitation.
58. Z. Xiong.Symposium on Biomimetic Intelligence and Manufacturing, Shanghai, China, Jan. 2026.(Invited) Bioinspired Flexible Bioelectronics for Digital Wound Management.
57. Z. Xiong.Youth Academic Seminar of NSFC (T03), China, Nov. 26 2025.(Invited) Biomedical Flexible Electronics — Frontiers and Challenges.
56. Z. Xiong.ICAFPM 2025, China, Nov. 2025.(Invited) Wireless and Flexible Bioelectronics for Digital Wound Management
55. Z. Xiong.The 1st Biomimetic Materials Chemistry Conference, Suzhou, China, Oct. 2025.(Invited) Bioinspired Flexible Bioelectronics for Digital Wound Management (Best Presentation Award)
54. Z. Cui, Z. Xiong.IEEE-NMDC 2025, Virtual Conference, Oct. 2025.
(Invited) A printable liquid metal-montmorillonite ink for high-resolution stretchable human-machine interfaces
53. Z. Xiong.Flexible Electronics Technology and Application Innovation Forum, Suzhou, China, Sep. 2025.(Invited) Wireless and Flexible Bioelectronics for Digital Wound Management
52. Z. Xiong.The 9th Symposium of Flexible & Stretchable Electronics, Shenzhen, China, Sep. 2025.Wireless and Flexible Bioelectronics for Digital Wound Management
51. Z. Xiong.2nd BMEMat-Advanced Materials Joint Symposium & International Meeting on Biomedical Engineering (IMBME), Jinan, China, Jul. 2025.(Invited) Wireless and Flexible Bioelectronics for Digital Wound Management
50. Z. Xiong.ICMAT 2025, Singapore, July. 2025.Wireless and Flexible Bioelectronics for Digital Wound Management
49. Z. Xiong.Invited Talk hosted by Prof. Kun Zhang, School of Medicine UESTC, Chengdu, China, May 2025.Wireless and Flexible Bioelectronics for Digital Wound Management
48. Z. Xiong.Invited Talk hosted by Prof. Xuemei Sun, Fudan University, Shanghai, China, Jan. 2025.Wireless and Flexible Bioelectronics for Digital Wound Management
47. Z. Xiong.The 2nd Med-X International Conference, Shanghai, China, Dec. 2024.(Invited) Wireless and Flexible Bioelectronics for Digital Wound Management
46. Z. Xiong.Micro-Nano Sensing Technology and Detection Innovation Forum, Shanghai, China, Nov. 2024.Wireless and Flexible Bioelectronics for Digital Wound Management
45. Z. Xiong.Future Hospitals, Vol. 2 – Formulas For Health., Shanghai, China, Nov. 2024
44. Z. Xiong (Organizing Committe Member & Session Chair).National Conference on Electronic Materials and Devices , Yantai, China, Oct. 2024.(Invited) Wireless and Flexible Bioelectronics for Digital Wound Management
43. Z. Xiong.International Symposium of Flexible & Stretchable Electronics (ISFSE), Wuhan, China, Sep. 2024.Wireless and Flexible Bioelectronics for Digital Wound Management
42. Z. Xiong (Session Chair).The 2nd Symposium on Advanced Materials and Smart Sensing Devices, Changsha, China, Aug. 2024.(Invited) Wireless and Flexible Bioelectronics for Digital Wound Management
41. Z. Xiong.2024 SES Annual Techincal Meeting, Hangzhou, China, Aug. 2024.(Invited) Wireless and Flexible Bioelectronics for Digital Wound Management
40. Z. Xiong.iCANX Davos Summit, Davos, Switzerland, Jul. 2024.(Invited) Wireless and Flexible Bioelectronics for Future Digital Wound Management
39. Z. Xiong (Session Chair).Conference on Micro and Nano Technology for Healthcare Innovation, Wuhan, China, May 2024.Wireless and Flexible Bioelectronics for Digital Wound Management
38. Z. Xiong.Forum on Flexible Electronics Technology and Application Innovation, Shenzhen, China, May 2024.Wireless and Flexible Bioelectronics for Digital Wound Management
37. Z. Xiong.iCANX Youth Talk, Online, Mar. 2024.(Invited) Wireless and Flexible Bioelectronics for Digital Wound Management
36. Z. Xiong.Future Hospitals Swissnex Event, Shanghai, China, Mar. 2024.(Invited) Wireless and flexible bioelectronics for digital healthcare in hospital
35. Z. Xiong.NanoMem Distinguished Talk hosted by Prof. Enming Song, Fudan University, China, Jan. 2024.Wireless and Flexible Bioelectronics for Digital Wound Management
34. Z. Xiong.21st IEEE MDBS-BHE Symposium, City University of Hong Kong, China, Dec. 2023.Wireless and Flexible Bioelectronics for Digital Wound Management
33. Z. Xiong.2nd China Conference on the Development of Medical Engineering, Tianjin, China, Dec. 2023.Wireless and Flexible Bioelectronics for Digital Wound Management
32. Z. Xiong.Invited Talk at Xianlin Forum hosted by Prof. Pingqiang Cai, Nanjing University, China, Nov. 2023.Wireless and Flexible Bioelectronics for Digital Wound Management
31. Z. Xiong.Invited Talks at FlexMat Forum hosted by Prof. Ting Wang, Nanjing, China, Nov. 2023.Wireless and Flexible Bioelectronics for Digital Wound Management
30. Z. Xiong.Nature Conference:Flexible Electronics – Science for a Sustainable World, Xiamen, China, Nov. 2023.Wireless and Flexible Bioelectronics for Sustainable Wound Management
29. Z. Xiong.Invited Talk at ME Academic Forum hosted by Prof. Yichao Tang, Tongji University, Shanghai, Cina, Oct. 2023.Wireless and Flexible Bioelectronics for Digital Wound Management
28. Z. Xiong.Frontiers in Science Series, No. 188 (Research Cloud & Nano-Micro Letters), Online, Sep. 2023.(Invited) Wireless and Flexible Bioelectronics for Digital Wound Management
27. Z. Xiong.2023 Young Scholar Symposium on Flexible Optoelectronics and Smart Fabrics, Donghua University, Shanghai, China, Aug. 2023.(Invited) Wireless and Flexible Bioelectronics for Digital Wound Management
26. Z. Xiong.2023 MINE Young Scientists Forum, Yantai, China, Aug. 2023.Wireless and Flexible Bioelectronics for Digital Wound Management
25. Z. Xiong.Chinese Materials Conference 2022-2023, Shenzhen, China, Jul. 2023.Wireless and Smart Bioelectronics for Digital Wound Management
24. Z. Xiong.Bioelectronics Gordon Research Conference, Andover, US, Jun. 2023.Wireless Bioelectronics for Digital Wound Management
23. Z. Xiong.Invited Talk hosted by Prof. Fengwei Huo, Nanjing Tech University, Nanjing, China, May 2023.Wireless and Smart Bioelectronics for Digital Wound Management
22. Z. Xiong.Invited Talk at Rongyu Forum hosted by Prof. Bowen Ji, Northwestern Polytechnical University, Xian, China, Apr. 2023.Wireless Bioelectronics for Digital Wound Management
21. Z. Xiong, J. Ho.The 4th International Conference on Flexible Electronics, Hangzhou, China, Dec. 2022.A Wireless and Flexible Infection Sensing Tag Based on Bio-Inspired DNA Hydrogel
20. Z. Xiong, J. Ho.2022 Materials Reserach Society Fall Meeting, Boston, US, Nov. 2022.Wirelessly Operated Flexible Wound Infection Sensing Tag Based on Bioresponsive Hydrogel
19. Z. Xiong, J. Ho.2022 IEEE International Microwave Biomedical Conference, Suzhou, China, May, 2022.Wirelessly Operated Flexible Sensing Tag for Continuous Wound Infection Monitoring
18. Z. Xiong, J. Ho.The International Conference on Flexible and Printed Electronics (ICFPE), Japan, Oct. 2021.(Invited) A wireless and flexible wound infection sensor based on DNA hydrogel
17. Z. Li, Z. Xiong, C. Li, J. Ho.IEEE-EMBS International Conference on Wearable and Implantable Body Sensor Networks (BSN), Jul 2021.Wireless respiration monitoring using a flexible sensor and bistable circuit (2nd best paper award)
16. Z. Xiong, S. Achavananthadith, S. Lian, J. Ho.International Conference on Materials for Humanity (MH21), Singapore, Jul. 2021.A wireless and battery-free wound infection sensor based on DNA hydrogel
15. Z. Xiong, S. Achavananthadith, S. Lian, J. Ho.9th MRS-S Conference on Advanced Materials, Singapore, Dec. 2020.Monitoring of wound infection by bio-responsive DNA hydrogel at radiofrequency;
14. Z. Xiong, Z. Li, J. Ho.10th International Conference on Materials for Advanced Technologies, Singapore, Jun. 2019.Non-Invasive Glucose Monitoring Enabled by Wireless Flexible Sensor;
13. Z. Xiong, J. Tang.AiMES 2018 ECS and SMEQ Joint International Meeting, Cancun, Mexico, Oct. 2018.(Invited) Controlling Electron and Photon Transport via Nanoengineering;
12. Z. Xiong, J. Wang, J. Tang.2018 Materials Research Society Spring Meeting, Phoenix, US, Apr. 2018.The Rationale Design of Electrochemical Redox Couple for Efficient Conversion of Light into Mechanical Energy;
11. Z. Xiong, J. Chen, J. Tang.Nature Conference on Materials Electrochemistry: Fundamentals & Applications, Shenzhen, China, Jan. 2018.Electrochemical Half-Reaction Assisted Sub-Bandgap Photon Sensing in Graphene Hybrid Photodetector;
10. J. Zheng, B. Dai, J. Wang, Z. Xiong, J. Tang.2017 Materials Reserach Society Fall Meeting, Boston, US, Nov. 2017.Independent Positioning of Visible-Light-Driven Bioinspired Microswimmer;
9. J. Wang, Z. Xiong, B. Dai, J. Tang .2016 Materials Research Society Fall Meeting, Boston, US, Nov. 2016.Wavelength-Dependent Light-Driven Nanomotor;
8. Z. Xiong, Y. Cai, J. Tang.2016 Materials Research Society Fall Meeting, Boston, US, Nov. 2016.Solution Processed CdS/Cu2S Superlattice Nanowire with Enhanced Thermal Power;
7. B. Dai, J. Wang, Z. Xiong, W. Dai, J. Tang.252nd ACS National Meeting, Philadelphia, US, Aug. 2016.Remotely controlled phototactic micro swimmers;
6. Z. Xiong, J. Chen, J. Tang.Graphene Week 2016 – Graphene Flagship, Warsaw, Poland, June 2016.Hot Carrier Separation in Wavelength Selective Graphene Photodetector by Reversible Chemical Electron Reservioir;
5. Z. Xiong, J. Chen, J. Tang.Young Giants of Nanoscience 2016, Hong Kong, China, May 2016. Wavelength-Selective Graphene Photodetector;
4. Z. Xiong, J. Tang.Strategic Research Scheme on Clean Energy Summer Workshop, Hong Kong, China, July 2015.Electrical and Thermal Transport in Chemically Modified Graphene;
3. Z. Xiong, S. Zhuo, X. Liu.2012 Annual Conference of National Synchrotron Radiation Laboratory, Xiamen, China, Aug. 2012.X-ray Absorption Spectroscopy Study of Magnetism Mechanism of (Cr, Ga)-codoped ZnO Thin Films;
2. Z. Xiong, S. Zhuo, X. Liu.The 5th ZnO Conference of China, Shenzhen, China, Nov. 2011.The Origin of Ferromagnetism in Cr-doped ZnO Films;
1. Z. Xiong, S. Zhuo, X. Liu.The 1st National High Energy Accelerator Strategic Conference, Beijing, China, Aug. 2011.Investigation on Ferromagnetic Mechanism in Cr-doped ZnO Films by Synchrotron Radiation.
荣誉奖励:
1、2026 – Distinguished Young Scholar of China-America Frontiers of Engineering(中美工程前沿杰出青年学者)。
2、2026 – IAAM Fellow(IAAM会士)。
3、2025 – Outstanding Researcher Award, ShanghaiTech University(上海科技大学杰出研究员奖)。
4、2025 – Awardee of Young Scientists Fund B [formerly Excellent Young Scientists Fund], NSFC(国家自然科学基金青年科学基金B类(原优秀青年科学基金)获得者)。
5、2025 – Emerging Investigator of JMCC(JMCC 新锐研究员)。
6、2024 – Mingzhu Elite Talent(明珠精英人才)。
7、2024 – iCANX Young Scientist Award Finalist(iCANX青年科学家奖入围者)。
8、2023 – Emerging Investigator of China (Outstanding Achievement Award) (中国新兴研究者(杰出成就奖))。
9、2023 – Swissnex Fellow, State Secretariat for Education, Research and Innovation (SERI, Switzerland)(瑞士国家科学创新局(SERI,瑞士)Swissnex研究员)。
10、2023 – MINE Young Scientist Award, Microsystems & Nanoengineering (Nature Publishing Group), (MINE青年科学家奖,微系统与纳米工程(Nature出版集团))。
11、2023 – Shanghai Overseas High-Level Talent(上海海外高层次人才)。
12、2023 – Best Poster Award (2nd Prize), Nature Conference — Flexible Electronics(最佳海报奖(二等奖),Nature Conference — 柔性电子)。
13、2022 – Best Poster Award, The 4th International Conference on Flexible Electronics(最佳海报奖,第四届柔性电子国际会议)。
14、2020 – Best Poster Award (2nd Place), 9th MRS-S Conference on Advanced Materials (Selected as featured oral presentation, 3 out of 125 contenders from MIT, Yale, EPFL, ETH, NUS, NTU, A*STAR etc.)(最佳海报奖(第二名),第九届MRS-S先进材料会议(入选专题口头报告,在来自麻省理工学院、耶鲁大学、洛桑联邦理工学院、苏黎世联邦理工学院、新加坡国立大学、南洋理工大学、新加坡科技研究局等机构的125名竞争者中脱颖而出))。
15、2017 – First Prize in Hong Kong University Student Innovation and Entrepreneurship Competition Wavelength-Dependent Light-Driven Nanomotor for Potential Nanomedicine Application (Out of 181 teams from 18 HK Univ. and Inst.)(香港高校学生创新创业大赛一等奖:波长依赖型光驱动纳米马达用于潜在纳米医学应用(在来自18所香港高校和研究机构的181支队伍中脱颖而出))。
16、2013 – HKU Postgraduate Scholarship, HKU(香港大学研究生奖学金,香港大学)。
17、2012 – 1st Class Academic Performance Scholarship, SICCAS(一等学业成绩奖学金,SICCAS)。
18、2011 – 2nd Class Academic Performance Scholarship, SICCAS(二等学业成绩奖学金,SICCAS)。
无感之感,健康中国新范式
——记上海科技大学生物医学工程学院研究员熊泽
如今,现代医学正从“被动诊疗”迈向“预测-预防-个性化”三位一体的新阶段。实现这一跃迁的关键,在于打通从生理信号感知到主动闭环干预的全链路。先进柔性电子技术正在重塑底层逻辑——传统医疗依赖间断、侵入式检测,而新一代柔性智能生物电子系统则能以毫米级厚度贴合人体,连续、无扰地采集并分析生理信号。以癫痫、心律失常为例,系统可毫秒级内识别异常电生理信号并触发局部电刺激,实现“感知即干预”。这一方向与《新一代人工智能发展规划》中“智能+健康”融合应用高度契合,也为上海科技大学生物医学工程学院研究员熊泽的科研选择与长期坚守提供了清晰注脚。数年来,他持续聚焦柔性智能生物电子与高灵敏生物传感的协同设计。其团队在界面拓扑-阻抗信号转导架构上的创新,显著提升了植入式系统的长期稳定性与安全性,为分级诊疗与远程监护提供可靠的硬件基础,推动优质医疗资源下沉与普惠覆盖。这一路径,正是“以预防为主、医防融合”国家战略在技术层面的精准落点。
让选择焕发光亮
这份统筹破立、洞察时势的本事,当然不是熊泽与生俱来的能力。当完成材料科学与工程专业本科学习时,他并不太清楚如何将材料原子、分子等微观层面的理解与前沿研究联系起来。但他表示,“系统的材料科学训练、扎实的实验与表征技能、跨尺度机理分析与数值建模能力,以及将科研成果工程化落地的实践经验,这些都为我后续的‘跨界’打下了极其坚实的基础”。
所以,当熊泽再一次站在深造“赶考”的十字路口,他的心境已完全不同。中国科学院上海硅酸盐研究所(简称“中国科学院上硅所”)在无机非金属材料领域的金字招牌熠熠生辉,而熊泽深切体悟到,“赶考”重点在“赶”,即从事科研事业便要保持斗志,而落点终归在“考”,即不断考验自己,锻造过硬本领,“我当时告诉自己:一定要到强者云集的地方去,在检验自身水平的同时不断自我迭代、进步。”硕士期间,熊泽对先进半导体薄膜材料和半导体器件这一领域深入钻研,并以继续投身世界科技前沿的决心申报了香港大学化学系。
“当时,唐晋尧教授刚从美国加州大学伯克利分校杨培东课题组回国加入港大,也将有关微纳材料和先进器件的智慧与灵感带了回来。”诚然,对于当时的熊泽而言,无论是“微纳材料”,还是“微纳器件”都是非常新鲜的概念,“所以一开始其实是比较痛苦的,作为实验室的首名博士生,初到一个全新的领域,研究手段、思路,包括使用的设备都需要重新学习。当时我迷茫了一阵,随后重新鼓起了勇气直面挑战。后来想想这段经历非常宝贵,在向‘难’而行的经历中锤炼出的独立思考能力和坚韧品质足以受用终生”。此言非虚,这些统统在之后转化成为民生添福祉的动人成果。

熊泽
让积累悄然绽放
如果说沉淀、积累、耕耘是熊泽求学时代的主题,那么其后独当一面的研究阶段便是他厚积薄发的绽放。扎根材料科学与电子工程的硬核土壤,面向临床一线的真实痛点,熊泽近年来带领团队以柔性、无线、智能的生物电子系统,为现代医学注入了难能可贵的预见性与主动性。
熊泽的第一项代表性工作发表于国际顶级期刊《科学进展》(Science Advances),聚焦于慢性伤口感染的早期预警。传统方法依赖肉眼观察或数日等待的细菌培养,对免疫功能低下或老年患者而言,这样的延迟往往意味着局部感染演变为脓毒症甚至死亡的不可逆风险。熊泽与团队另辟蹊径,首次将具有分子识别能力的D N A水凝胶集成到柔性电子平台。这种水凝胶不是被动载体,而是一种“智能响应”材料——当金黄色葡萄球菌等致病菌释放特定酶类时,水凝胶结构发生特异性降解,引发电学性质的显著变化。柔性电极随即捕获这一微观生化事件,并将其转化为可测量的电容信号。更关键的是,系统无需电池,借助近场通信(N F C)技术,医护人员或患者用智能手机轻触敷料即可在数秒内获得定量的感染风险评估结果,将感染检测窗口从数天压缩至24小时以内,真正实现“让伤口开口说话”。据国家卫生健康委统计,我国每年慢性伤口患者超过三千万,若此类智能敷料未来得以普及,不仅可大幅降低重症转化率,也能有效遏制抗生素滥用,精准呼应“健康中国2030”战略中“预防为主、关口前移”的核心理念。
如果说表皮伤口尚有迹可循,那么深部手术后的并发症则如同汹涌的暗流,往往在症状暴发时已酿成危局。以胃肠道吻合口瘘为例,消化液一旦渗漏入腹腔,患者可能在48小时内陷入感染性休克,死亡率极高。然而现行诊断多依赖患者主诉后的影像学检查,过程滞后、成本高昂且伴随辐射暴露。面对这一临床困局,熊泽提出一个极具想象力的解决方案:将手术缝合线本身变为“体内哨兵”。他带领团队开发出一种无线生物电子缝合线——在医用缝线上修饰导电聚合物,使其具备天线功能;同时集成微型柔性传感器,在其表面覆盖一层仿生多肽水凝胶。此水凝胶在正常组织环境中稳定,但一旦接触胃液、肠液等消化酶环境(即发生瘘),便会迅速降解,改变局部介电特性,进而调制缝合线天线的谐振频率。外部手持读取器通过射频信号即可无创探测这一变化,实现无电池、连续、原位的监测。这项工作被《自然·生物医学工程》(Nature Biomedical Engineering)选为当期封面,将传统仅具机械闭合作用的手术耗材,升级为具备“感知-通信”能力的智能医疗器械,有望将术后监护从被动响应转向主动预警,为挽救生命赢得黄金时间。

2025年春团队合影
从浅至深,熊泽的探索仍未止步。近年来,他进一步将目光投向更为敏感且高风险的颅脑重症领域。颅内压异常是脑外伤、脑出血等疾病的关键指征,但现有金标准——有创颅内探头——需穿透颅骨植入并连接外部有线设备,不仅带来感染与出血风险,更严重限制患者活动。作为核心成员,熊泽参与并提出了一种新型微型无线颅压传感器。其设计灵感源自荷叶表面“气-液-固”三相结构,通过微米级传感阵列顶层液面的低回滞可逆形变,将压力信号转化为电磁频率偏移。外部智能终端可远程读取这一信号,灵敏度达79.1pF·kPa-1,且无需任何经皮导线。在动物模型中,其性能媲美商用有创探头,同时显著降低并发症风险。这项工作发表于《自然·材料》(Nature Materials),被期刊同期评论誉为“为颅脑重症监护提供了优雅的无线解决方案”,也彰显了熊泽一贯的科研理想:以工程之巧,守护生命之重。
三项工作,三种场景,却贯穿着同一条清晰的逻辑主线:将人体的隐秘语言,翻译成数字世界的可读代码;将临床的滞后响应,转变为前置的智能干预。熊泽的科研路径,始终锚定国家重大战略需求。无论是《“十四五”医疗装备产业发展规划》中明确支持的“柔性可穿戴诊疗设备”,还是《新一代人工智能发展规划》倡导的“智能+健康”深度融合,他的研究都提供了扎实的技术支点。他拒绝闭门造车,坚持“从病房找问题,在实验室找答案,最终回到临床验证价值”。如今,作为上海科技大学的青年科学家,他正带领团队向更复杂的多模态感知与闭环调控技术迈进——未来的健康守护,或将如空气般无形,却无处不在;如呼吸般自然,却精准可靠。在这条融合工程技术理性与医学人文关怀的道路上,熊泽将继续“以柔克病”,力争书写出属于中国青年科学家的智能医疗新篇章。
来源:科学中国人 2026年第2期 封底人物
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