袁光杰，上海市浦江人才，2014年毕业于东京大学工学部材料工程系并获博士学位，2014-2016年就职于中芯国际集成电路制造（上海）有限公司技术研发中心，2016-2025年就职于上海大学机电工程与自动化学院，并于2025年2月入职opta足球数据中文版电子与信息工程学。作为负责人完成国家自然科学基金两项，并参与国家重点研发计划等多项国家及省部级项目。发表包括Nature Communications，Cell Reports Physical Science和ACS Applied Materials & Interfaces等SCI学术论文30余篇，参编专著1本，授权发明专利9项。

研究方向：

1.高性能电子皮肤

2.机器人视触觉感知技术

3.可穿戴技术

主持科研项目：

1.上海市白玉兰人才计划浦江项目，25PJD135，高灵敏度人形机器人电子皮肤系统研制及其感知机制研究，2025.12-2027.11，30万元，负责人

2.国家自然科学基金青年项目，61704102,石墨烯和定向碳纳米管复合薄膜制备及其界面热传输研究，2018.01-2020.12，25万元，负责人。

3.国家自然科学基金国际（地区）合作与交流项目，51861135105，先进互连技术的扩散阻挡层材料工艺开发和机理研究，2018.01-2022.12，80万元，单位负责人。

4.科技部国家重点研发计划战略性先进电子材料专项，2017YFB0406000,高性能热界面材料基础研究，2017.07-2021.06，163.8万元，主要参与人。

近五年发表论文：

1.Yuan G.J.*, Gu H.R., Yu Q.J., Shi K., Xu H., Min Z.K., Hu Y.K., Lv S.G., Zhang S., Qian J., Li Z.J.*, Highly stretchable and microporous hybrid film-based electronic skins for biomimetic devices and smart wearables [J]. Cell Reports Physical Science, 2026. (Accepted)

2.Hu Y.K., Yu Q.J., Xu H., Gu H.R., Zhang S., Shi K., Jun Q., Jun L.,Yuan G.J.*, A Linear-Response and Stretchable Capacitive Electronic Skin Integrated with Machine Learning for Wireless Health Monitoring and Smart Robotic Grasping [J]. Applied Materials Today, 2025, 47: 102970.

3.Gu H.R., Li Z.L., Zhang S., Hu Y.K., Zhao Y.G., Xu H., Shi K., Jia W.C., Huo J.W., Zhang H.,Yuan G.J.*, Highly pressure-sensitive electronic skin based on the synergistic effect of a microfiber mesh/rough-surface carbon film/microstructural poly(dimethylsiloxane) [J]. ACS Applied Materials & Interfaces, 2025, 17 (23): 34602-34613.

4.Marten J.*, Gaukel N., Hu Y.K., Wang Y.L,Yuan G.J.*, Willenbacher N., High-throughput production of electrically conductive yarn (E-yarn) for smart textiles [J]. Advanced Electronic Materials, 2024, 11 (7): 2400700.

5.Zhao Y.G., Hu Y.K., Li Z.L., Dong Y., Gu H.R., Sun Y.L., Willenbacher N.,Yuan G.J.*, Carbon nanotube/nonwoven fabric-based electronic skins for smart clothing and electronic glove [J]. Sensors and Actuators: A. Physical, 2024, 375 (1): 115527.

6.Dong Y., Hu Y.K., Zhao Y.G., Li Z.L., Gu H.R., Huo J.W., Zhang H.,Yuan G.J.*, Graphene-impregnated paper-based electronic skins for robotic intelligence and wireless health monitoring [J]. ACS Applied Electronic Materials, 2024, 6 (2): 998-1006.

7.Zhang R., Lv S.G., Li Z.L., Dong Y., Zhao Y.G., Gong W.P., Sun Y.L., Zou X.L., Lu X.G.,Yuan G.J.*, Low-power-consumption electronic skins based on carbon nanotube/graphene hybrid films for human–machine interactions and wearable devices [J]. ACS Applied Nano Materials, 2023, 6 (13): 12338-12350.

8.Yuan G.J.*, Lv S.G., Zhang R., Liu Z.H., Zhao Y.G., Dong Y., Li Z.L., Gong W.P., Sun Y.L., Flexible, wearable and ultralow-power-consumption electronic skins based on a thermally reduced graphene oxide/carbon nanotube composite film [J]. ACS Applied Electronic Materials, 2023, 5 (8): 4451.

9.Lv S.G., Cao Z.P., Ying Z.X., Zhang R., Tian Y.Z., Gong W.P.,Yuan G.J.*, Flexible, stretchable, wearable electronic skins based on aligned carbon nanotube fiber arrays for motion detection and human-machine interaction [J]. Sensors and Actuators A: Physical, 2023, 362: 114634.

10.Zheng H.D., Sun Y.L., Kong D.W., Yin M.C., Chen J., Lin Y.P., Ma X.F., Wang H.S.,Yuan G.J., Yao M., Cui X.J., Tian Y.Z., Wang Y.J., Deep learning-based high-accuracy quantitation for lumbar intervertebral disc degeneration from MRI [J]. Nature Communications, 2022, 13: 841.