中文版介绍:
课题组主页
http://flexible.energy.suda.edu.cn
个人简介
刘瑞远,www.优德88.cpm 能源学院特聘教授,博士生导师,课题组长(PI)。先后在www.优德88.cpm (导师为孙宝全教授)、美国佐治亚理工学院(导师为王中林院士)、中科院北京纳米能源与系统研究所、日本理化学研究所/东京大学(合作导师为Takao Someya教授)从事学习和研究工作。研究内容涉及碳基、硅基及其复合功能材料的制备和在可穿戴能源与传感器件上的应用,研究结果发表在Nature Reviews Materials, Nature Energy, Nature Communications, Progress in Materials Science, Advanced Materials, Advanced Energy Materials等材料和能源领域知名期刊。
联系方式
E-mail:ryliu@suda.edu.cn
办公地址:公共测试中心204
研究方向
1.柔性透明电极及其在光电器件上的应用(金属纳米线、导电聚合物)
2.碳基和硅基功能材料及其智能能源和传感器件(摩擦纳米发电机,水伏发电机)
3.柔性自充电系统(能量转化和储能器件的集成)
4.无线自驱动可穿戴传感设备(电子皮肤,智能纺织品,软体机器人等)
招生招聘
课题组常年招收有志于从事功能材料以及柔性可穿戴能源与传感器件研究的博士后、博士生、硕博连读生、硕士生和本科生,热忱欢迎材料、物理、化学、微电子科学等相关背景的同学。课题组鼓励交流,所有研究生每年至少有一次参加国内会议的机会,博士生可参与一次国际学术会议。与国内外知名研究机构课题组有紧密合作关系,优秀学生和博士后在学研期间可以推荐出国交流和深造。
近期代表性论文
(加#为共同第一作者,*为通讯作者)
1. B. Shao#, M-H. Lu#, T-C. Wu, W-C. Peng, T-Y. Ko, Y-C. Hsiao, J-Y. Chen, B. Sun*,R. Liu*, Y-C. Lai*. Large-area, untethered, metamorphic, and omnidirectionally stretchable multiplexing self-powered triboelectric skins.Nat. Commun.2024, 15, 1238. (Editor’s highlights)
2. C. Zhang#, M. Nayeem#, Z. Wang#, X. Pu, C. Dagdeviren*, Z. L. Wang*, X. Zhang*,R. Liu*. Conductive hydrogels for bioenergy harvesting and self-powered application.Prog. Mater. Sci.2023, 138, 101156.
3. K. Ni, B. Xu, Z. Wang, Q. Ren, W. Gu, B. Sun,R. Liu*, X. Zhang*. Ion diode-like heterojunction for improving electricity generation from water droplets by capillary infiltration.Adv. Mater.2023, 35, 202305438.
4. B. Shao, Y. Song, Z. Song, Y. Wang, Y. Wang*,R. Liu*, B .Sun*. Electricity generation from phase transitions between liquid and gaseous water.Adv. Energy Mater.2023, 13, 2204091.
5. G. Weng, X. Yang, Z. Wang, Y. Xu,R. Liu*. Hydrogel electrolyte enabled high-performance flexible aqueous zinc ion energy storage systems toward wearable electronics.Small2023, 19, 2303949.
6. B. Shao, C. Xing, Y. Song, C. Jiang, G. Bai, T. Song,R. Liu*, Y. Wang*, B .Sun*. Boosting electrical output of nanostructured silicon hydrovoltaic device via cobalt oxide enabled electrode surface contact.Nano Energy2023, 106, 108081.
7.R. Liu*, Z. L. Wang, K. Fukuda*, T. Someya*. Flexible self-charging power sources.Nat. Rev. Mater.2022, 7, 870. (Editor’s highlights; ESI highly cited paper & hot paper)
8.R. Liu#, Y. Lai#, S. Li#, F. Wu, J. Shao, D. Liu, X. Dong*, J. Wang*, Z. L. Wang*. Ultrathin, transparent, and robust self-healing electronic skins for tactile and non-contact sensing.Nano Energy2022, 95, 107056.
9. Highly adhesive and self-healing γ-PGA/PEDOT PSS conductive hydrogels enabled by multiple hydrogen bonding for wearable electronics. C. Zhang#, M. Wang#, C. Jiang, P. Zhu, B. Sun, Q. Gao*, C. Gao*,R. Liu*.Nano Energy2022, 95, 106991. (ESI highly cited paper)
10.R. Liu, M. Takakuwa, A. Li, K. Yu, S. Umezu, K. Fukuda*, T. Someya*. An efficient ultra-flexible photo-charging system integrating organic photovoltaics and supercapacitors.Adv. Energy Mater.2020, 10, 2000523.
科研之外
提倡劳逸结合,保持身心健康,平衡的工作和生活时间可以达到事半功倍的效果。以读有趣的书为乐,喜欢的作家包括沈从文,汪曾祺,紫金陈,东野圭吾等。喜欢跑步,2014年第一次参加半程马拉松的成绩为一小时四十七分;热爱羽毛球,多次获得www.优德88.cpm 各个学院举办的羽毛球比赛男单冠军,曾获得2019年日本和光市羽毛球公开赛男双冠军。生活中对很多事物感兴趣,最近想学习如何养好多肉植物。
英文版介绍:
Prof. Ruiyuan Liu
College of Energy, Soochow University.
Position: Professor (PI)
E-mail: ryliu@suda.edu.cn
Link:http://flexible.energy.suda.edu.cn/main.htm
Short Bio
Ruiyuan Liu is a full professor at the College of Energy, Soochow University. He was a joint Ph.D. student at Soochow University (with Prof. Baoquan Sun) and Georgia Institute of Technology (with Prof. Zhong Lin Wang) and obtained his Doctoral degree in 2017. He then worked as a postdoctoral fellow with Prof. Takao Someya, at the Center for Emergent Matter Science (CEMS), RIKEN and University of Tokyo, Japan. His research focuses on flexible self-charging power sources and self-powered systems, which include the development of functional materials and devices for wearable energy harvesting, energy storage and sensing technologies.
Research interests
l Functional materials and devices for wearable energy harvesting
l Flexible self-charging power sources
l Flexible self-powered sensing technologies
Representative publications
(#Equal contribution; * corresponding author.)
1. B. Shao#, M-H. Lu#, T-C. Wu, W-C. Peng, T-Y. Ko, Y-C. Hsiao, J-Y. Chen, B. Sun*,R. Liu*, Y-C. Lai*. Large-area, untethered, metamorphic, and omnidirectionally stretchable multiplexing self-powered triboelectric skins.Nat. Commun.2024,15, 1238. (Editor’s highlights)
2. C. Zhang#, M. Nayeem#, Z. Wang#, X. Pu, C. Dagdeviren*, Z. L. Wang*, X. Zhang*,R. Liu*. Conductive hydrogels for bioenergy harvesting and self-powered application.Prog. Mater. Sci.2023, 138, 101156.
3. K. Ni, B. Xu, Z. Wang, Q. Ren, W. Gu, B. Sun,R. Liu*, X. Zhang*. Ion diode-like heterojunction for improving electricity generation from water droplets by capillary infiltration.Adv. Mater.2023, 35, 202305438.
4. B. Shao, Y. Song, Z. Song, Y. Wang, Y. Wang*,R. Liu*, B .Sun*. Electricity generation from phase transitions between liquid and gaseous water.Adv. Energy Mater.2023, 13, 2204091.
5. R. Liu*, Z. L. Wang, K. Fukuda*, T. Someya*. Flexible self-charging power sources.Nat. Rev. Mater.2022, 7, 870. (Editor’s highlights; ESI highly cited paper & hot paper)
6. Highly adhesive and self-healing γ-PGA/PEDOT PSS conductive hydrogels enabled by multiple hydrogen bonding for wearable electronics. C. Zhang#, M. Wang#, C. Jiang, P. Zhu, B. Sun, Q. Gao*, C. Gao*,R. Liu*.Nano Energy2022, 95, 106991. (ESI highly cited paper)
7. R. Liu, M. Takakuwa, A. Li, K. Yu, S. Umezu, K. Fukuda*, T. Someya*. An efficient ultra-flexible photo-charging system integrating organic photovoltaics and supercapacitors.Adv. Energy Mater.2020, 10, 2000523.
8. R. Liu#, X. Kuang#, J. Deng#, Y. Wang, A. C. Wang, W. Ding, Y. Lai, P. Wang, J. Chen, P. Wang, Z. Lin, B. Sun*, J. Qi*, Z. L. Wang*.Shape memory polymers for body motion energy harvesting andself-poweredmechanosensing.Adv. Mater.2018, 30, 1705195.(ESI highly cited paper)
9. R. Liu#, J. Wang#, T. Sun, M. Wang, Z. L. Wang*, B. Sun*.Silicon nanowire/polymer hybrid solar cell-supercapacitor: a self-charging power unit with a total efficiency of 10.5%.Nano Lett.2017, 17, 4240.
10. R. Liu, S. T. Lee, B. Sun*. 13.8% efficiency hybrid Si/organic heterojunction solar cells with MoO3 film as antireflection.Adv. Mater.2014, 26, 6007.