个人简介
教育背景
2014.09-2020.03 上海交通大学 动力工程及工程热物理 工学博士
2019.08-2019.11 日本九州大学 航空应用物理系 海外访学
工作经历
2022.03-至今 上海交通大学 机械与动力工程学院 助理教授(博导)
2020.03-2022.02 上海交通大学 机械与动力工程学院 博士后
出访及挂职经历
2019.08-2019.11 日本九州大学 航空应用物理系 海外访学
国际学术会议:
2016.07 16th International Refrigeration and Air Conditioning Conference, 普度大学, 美国
2018.09 8th International Conference on Heat Powered Cycles , 拜罗伊特大学, 德国
2019.05 5th International Conference of Polygeneration, 九州大学, 日本
科研项目
2022-2024 国家自然科学基金青年项目,主持;
2020-2022 中国博士后科学基金面上项目,主持;
2020-2022 中国博士后创新人才支持计划项目,主持;
2020-2022 上海市“超级博士后”激励计划项目 ,主持;
2022-2025 上海交通大学“双一流”建设项目人才专项,主持;
2023-2024 未来技术课程培育项目《先进储能技术及其工程热物理基础》,主持;
2023-2028 国家自然科学基金重大项目,参与;
2019-2021 国家重点研发计划项目,主要参与人;
2016-2021 国家自然科学基金创新研究群体项目,参与;
2016-2018 国家自然科学基金优青项目,主要参与人
代表性论文专著
在储能材料与技术、传热传质等领域的国际顶级期刊(如Nature Energy、Advanced Materials、Matter、Energy Storage Materials、Journal of Materials Chemistry A、ACS Applied Materials & Interfaces、International Journal of Heat and Mass Transfer 等)发表学术论文近30篇。
软件版权登记及专利
1. 仵斯, 李廷贤, 许嘉兴, 吴东灵, 翟天尧, 王如竹. 一种模块化相变储热供热单元及其制造方法, 2018-6-26, 中国, ZL201610098857.0. (授权)
2. 仵斯, 李廷贤, 许嘉兴, 闫霆, 王如竹. 一种高效储热单元及其成型模具与制造方法, 2016-11-9, 中国, ZL201510167351.6. (授权)
3. 李廷贤, 仵斯, 王如竹. 一种蓄能型复合太阳能集热及热泵的冷热联供系统, 2020-8-25, 中国, ZL201710468393.2. (授权)
4. 李廷贤, 翟天尧, 仵斯, 许嘉兴, 吴东灵, 王如竹. 一种太阳能热驱动的温湿度独立控制空调系统, 2018-11-16, 中国, ZL201610099100.3. (授权)
5. 许嘉兴, 李廷贤, 闫霆, 仵斯, 吴东灵, 翟天尧, 王如竹. 一种可实现冷热联供的电动汽车吸附热池空调系统, 2018-3-9, 中国, ZL201610470203.6. (授权)
荣誉奖励
2023年 上海市自然科学奖一等奖
2020年 入选全国博士后创新人才支持计划
2020年 入选上海市“超级博士后”激励计划
2020年 入选上海交通大学海外博士后师资储备计划
2020年 获得夏安世奖学金-三花奖
2019年 获得上海交通大学研究生学术之星提名奖
2019年 获得上海交通大学优秀毕业生荣誉称号
2018年 获得上海交通大学优秀奖学金
2016年 获得上海交通大学KERN-LIEBERS奖学金
2015年 获得研究生国家奖学金
近期论文
查看导师新发文章
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1. S. Wu,* T.X. Li, Electrochemical refrigeration: Taking control of salts. Nature Energy, 8 (2023) 226–227. (IF=60.8)
2. S. Wu, T.X. Li,* Z-Y. Zhang, T. Li, R.Z. Wang*. Photoswitchable phase change materials for unconventional thermal energy storage and upgrade, Matter 4 (2021) 3385. (IF=20.0)
3. S. Wu,† T.X. Li,†* Z. Tong, J.W. Chao, T.Y. Zhai, J.X. Xu, T.S. Yan, M.Q. Wu, Z.Y Xu, H. Bao, T. Deng*, R.Z. Wang*. High-performance thermally conductive phase change composites by large-size oriented graphite sheets for scalable thermal energy harvesting. Advanced Materials 31 (2019) 1905099. (IF=32.1;ESI高被引)
4. S. Wu,† T. X. Li,†* M. Wu, J. Xu, Y. Hu, J. Chao, T. Yan R.Z. Wang*. Highly thermally conductive and flexible phase change composites enabled by polymer/graphite nanoplatelet-based dual networks for efficient thermal management. Journal of Materials Chemistry A 8 (2020) 211-222. (IF=14.5)
5. S. Wu,† T.X. Li,†* M. Wu, J. Xu, J. Chao, Y. Hu, T.S. Yan, Q. Li, R.Z. Wang*. Dual-Functional aligned and interconnected graphite nanoplatelet networks for accelerating solar thermal energy harvesting and storage within phase change materials. ACS Applied Materials & Interfaces 13 (2021) 19200. (IF=10.4)
6. S. Wu, X. Zhang, R. Wang, T. Li, Progress and perspectives of liquid metal batteries. Energy Storage Materials. 57 (2023) 205-227. (IF=20.8)
7. S. Wu, T.X. Li,* T. Yan, R.Z. Wang. Experimental investigation on a novel solid-gas thermochemical sorption heat transformer for energy upgrade with a large temperature lift. Energy Conversion and Management 148 (2017) 330-338. (IF=11.5)
其他论文
8. S. Wu, Q.Y. Li,* T. Ikuta, K. Morishita, K. Takahashi, R.Z. Wang, T.X. Li*. Thermal conductivity measurement of an individual millimeter-long expanded graphite ribbon using a variable-length T-type method. International Journal of Heat and Mass Transfer 171 (2021) 121115.
9. S. Wu, T.X. Li,* R.Z. Wang. Experimental identification and thermodynamic analysis of ammonia sorption equilibrium characteristics on halide salts. Energy 161 (2018) 955-962.
10. S. Wu, T.X. Li,* T. Yan, R.Z. Wang. Advanced thermochemical resorption heat transformer for high-efficiency energy storage and heat transformation. Energy 175 (2019) 1222-1233.
11. S. Wu, T.X. Li,* T. Yan, Y.J. Dai, R.Z. Wang. High performance form-stable expanded graphite/stearic acid composite phase change material for modular thermal energy storage. International Journal of Heat and Mass Transfer 102 (2016) 733-744.
12. S. Wu, T.X. Li,* T. Yan, R.Z. Wang. Experimental investigation on a thermochemical sorption refrigeration prototype using EG/SrCl2–NH3 working pair. International Journal of Refrigeration 88 (2018) 8-15.
13. T.X. Li,* S. Wu, T. Yan, J.X. Xu, R.Z. Wang. A novel solid-gas thermochemical multilevel sorption thermal battery for cascaded solar thermal energy storage. Applied Energy 161 (2016) 1-10.
14. T.X. Li,* S. Wu, T. Yan, R.Z. Wang J. Zhu, Experimental investigation on a dual-mode seasonal solar thermochemical sorption energy storage system. Energy 140 (2017) 383-394.
15. M.Q. Wu, S. Wu, Y.F. Cai, R.Z. Wang, T.X. Li.* Form-stable phase change composites: Preparation, performance, and applications for thermal energy conversion, storage and management. Energy Storage Materials 42 (2021) 380-417.
16. T.X. Li,* M. Wu, S. Wu, S. Xiang, J. Xu, J. Chao, T. Yan, T. Deng,* R.Z. Wang*. Highly conductive phase change composites enabled by vertically-aligned reticulated graphite nanoplatelets for high-temperature solar photo/electro- thermal energy conversion, harvesting and storage. Nano Energy 89 (2021), 106338.
17. J.X. Xu,† T.X. Li,*† T.S. Yan,† S. Wu, M.Q. Wu, J.W. Chao, X.Y. Huo, P.F. Wang, R.Z. Wang.* Ultrahigh solar-driven atmospheric water production enabled by scalable rapid-cycling water harvester with vertically aligned nanocomposite sorbent. Energy & Environmental Science 2021, online.
18. J.X. Xu,† T.X. Li,*† J.W. Chao, S. Wu, T.S. Yan, W.C. Li, B.Y. Cao, R.Z. Wang*. Efficient Solar-Driven water harvesting from arid air with Metal-Organic frameworks modified by hygroscopic salt. Angewandte Chemie International Edition 59 (2020) 2-11.
19. J.X. Xu,† J.W. Chao,† T.X. Li,*† T. Yan, S. Wu, M. Wu, B. Zhao, R. Z. Wang*. Near-zero-energy smart battery thermal management enabled by sorption energy harvesting from air. ACS Central Science 6 (2020) 1542−1554.
20. M.Q. Wu, T.X. Li,*, P.F. Wang, S. Wu, R.Z. Wang, and J. Lin. Dual-Encapsulated Highly Conductive and Liquid-Free Phase Change Composites Enabled by Polyurethane/Graphite Nanoplatelets Hybrid Networks for Efficient Energy Storage and Thermal Management. Small (2021) e2105647.
21. R. Du, M. Wu, S. Wang, S. Wu, R. Wang, T. Li, Experimental investigation on high energy-density and power-density hydrated salt-based thermal energy storage. Appl. Energ. 325 (2022) 119870.
22. Z. Shangguan, W. Sun, Z. Zhang, D. Fang, Z. Wang, S. Wu, C. Deng, X. Huang, Y. He, R. Wang, T. Li, K. Moth-Poulsen, T. Li, A rechargeable molecular solar thermal system below 0 °C. Chem. Sci., 10.1039/d2sc01873j.
23. 仵斯, 李廷贤,* 闫霆, 代彦军, 王如竹, 高性能定形复合相变储能材料的制备及热性能. 化工学报 66 (2015) 5127-5134. (中文EI,封面论文)
24. 翟天尧, 李廷贤,* 仵斯, 王如竹, 高导热膨胀石墨/硬脂酸定形相变储能复合材料的制备及储/放热特性. 科学通报 63 (2018) 674-683. (中文EI,封面论文)
25. 李帮俊, 王晨曦, 仵斯,潘权稳, 李廷贤, 王如竹*.电子器件动态热管理软硬件实施方法. 中国科学 技术科学 50 (2020) 1298-1315. (中文EI)
学术会议论文
26. S. Wu, T.X. Li, T. Yan & R.Z. Wang. Experimental study on a solar-powered thermochemical sorption refrigeration system using strontium chloride/ EG-ammonia working pair. 16th International Refrigeration and Air Conditioning Conference at Purdue University. July 11-14, 2016. Purdue University, USA
27. S. Wu, T.X. Li, T. Yan & R.Z. Wang. A large-temperature-lift solid-gas chemisorption heat transformer system for high-efficiency energy upgrade. Heat Powered Cycles Conference. September 16-19, 2018. University of Bayreuth, Germany
28. S. Wu, T.X. Li & R.Z. Wang. Ultrahigh thermally conductive phase change composites for highly efficient thermal energy harvesting. International Conference of Polygeneration. May 15-17, 2019. Kyushu University, Japan