2014-2020  上海交通大學(xué) 動力工程及工程熱物理 工學(xué)博士
2019-2019  日本九州大學(xué) 航空應(yīng)用物理系 海外訪學(xué)

2010-2014  北京科技大學(xué) 熱能與動力工程  學(xué)士

2024-至今   上海交通大學(xué)，機械與動力工程學(xué)院，副教授，博士生導(dǎo)師
2022-2023  上海交通大學(xué)，機械與動力工程學(xué)院，助理教授，博士生導(dǎo)師
2020-2022  上海交通大學(xué)，機械與動力工程學(xué)院，博士后

先進(jìn)儲能與熱管理技術(shù)

儲能過程熱質(zhì)傳輸強化

太陽能制冷及儲能

大功率電子器件控溫

歡迎對儲能與熱管理感興趣的本科生、碩士生、博士生加入課題組開展前沿研究！

招生情況：每年可招收博士生1名，碩士生2名。

指導(dǎo)學(xué)生獲獎情況：

張驍：2024年研究生國家獎學(xué)金、航天科技一等獎學(xué)金

桑浩源：2025年研究生國家獎學(xué)金

張驍：上海交通大學(xué)優(yōu)秀畢業(yè)生

唐凱悅、桑浩源：第十八屆全國節(jié)能減排大賽一等獎

青年編委：The Innovation Energy

評審編輯：Frontiers in Energy Research
期刊同行評議專家：Advanced Functional Materials, Energy Storage Materials, Carbon,  Energy等
教育部學(xué)位與研究生教育發(fā)展中心 評審專家
國家自然科學(xué)基金項目 評審專家

2025-2028  國家自然科學(xué)基金面上項目，主持；

2025-2027  航天器熱控全國重點實驗室開放基金項目，主持；

2025-2026  能源高效清潔利用全國重點實驗室開放基金項目，主持；

2022-2024  國家自然科學(xué)基金青年項目，主持；
2024-2025  先進(jìn)越野系統(tǒng)技術(shù)全國重點實驗室開放基金項目，主持；
2020-2022  中國博士后科學(xué)基金面上項目，主持；
2020-2022  中國博士后創(chuàng)新人才支持計劃項目，主持；
2020-2022  上海市“超級博士后”激勵計劃項目 ，主持；
2022-2025  上海交通大學(xué)“雙一流”建設(shè)項目人才專項，主持；
2023-2024  未來技術(shù)課程培育項目《先進(jìn)儲能技術(shù)及其工程熱物理基礎(chǔ)》，主持；
2023-2028  國家自然科學(xué)基金重大項目，參與；
2019-2021  國家重點研發(fā)計劃項目，主參；
2016-2021  國家自然科學(xué)基金創(chuàng)新研究群體項目，參與；
2016-2018  國家自然科學(xué)基金優(yōu)青項目，主參

在儲能材料與技術(shù)、傳熱傳質(zhì)等領(lǐng)域的國際頂級期刊（如Nature Energy、Advanced Materials、Matter、Small、Energy Storage Materials、ACS Materials Letters、Journal of Materials Chemistry A、ACS Applied Materials & Interfaces、International Journal of Heat and Mass Transfer 等）發(fā)表學(xué)術(shù)論文30余篇。

代表性論文

Si Wu?*, Kaiyue Tang?, Xiao Zhang, Haoyuan Sang, Ruxue Du, Pengfei Wang, Jiaxing Xu, Ruzhu Wang*, Tingxian Li*, Sorption-driven dissolution refrigeration cycle with thermal storage. Nature Energy, 2026, Accept.

Kaiyue Tang, Si Wu*, Revisiting an ancient refrigeration technology based on salt dissolution, Joule, 2026, Accept.

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. 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)
3. 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)
4. S. Wu, X. Zhang, R.Z. Wang*, T.X. Li*, Progress and perspectives of liquid metal batteries. Energy Storage Materials 57 (2023) 205-227. (IF=20.8)
5. S. Wu,? Z. Zhang,? T. Li,* R. Wang,* T.X. Li,* Optically-controlled variable-temperature storage and upgrade of thermal energy by photoswitchable phase change materials. ACS Materials Letters 5 (2023) 2019-2027. 10.1021/acsmaterialslett.3c00351 (IF=11.4)
6. 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；ESI高被引)
7. 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)
8. X. Zhang#, S. Wu#*, K.Y. Tang, Y.B. Xu, Y.H. Tang, Y.B. Ma, T.X. Li*, A biomimetic melting-evaporation cooling bilayer for efficient thermal management of ultrafast-cycling batteries, Energy Storage Materials 71 (2024) 103602.

9. X. Zhang, H. Sang, K. Tang, S. Wu*, Toward high-energy-density phase change thermal storage materials, The Innovation Energy 2 (2025) 100089.  

10. S. Wu,* X. Zhang, H. Sang, K. Tang, Y. Tang, L. Chen, T. Li, A low‐thermal‐resistance and oriented assembly strategy enabling ultrahigh thermal conductivity phase change composites for efficient thermal management, Small (2025) e7948.  

其他論文
11. S. Wu*, X. Zhang, K. Tang, T. Li, Magnetically- regulated close contact melting for high-power-density latent heat energy storage, Journal of Energy Storage 95 (2024) 112660. 

12. 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. 
13.  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.
14.  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.
15.  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.
16.  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.
17.  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.
18.  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.  
19.  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.
20.  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.
21.  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.
22.  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.
23.  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.
24.  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.
25.  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.
26. 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.
27. 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.
28.  仵斯, 李廷賢,* 閆霆, 代彥軍, 王如竹, 高性能定形復(fù)合相變儲能材料的制備及熱性能. 化工學(xué)報 66 (2015) 5127-5134. (中文EI，封面論文)
29.  翟天堯, 李廷賢,* 仵斯, 王如竹, 高導(dǎo)熱膨脹石墨/硬脂酸定形相變儲能復(fù)合材料的制備及儲/放熱特性. 科學(xué)通報 63 (2018) 674-683. (中文EI，封面論文)
30.  李幫俊, 王晨曦, 仵斯，潘權(quán)穩(wěn), 李廷賢, 王如竹*.電子器件動態(tài)熱管理軟硬件實施方法. 中國科學(xué) 技術(shù)科學(xué) 50 (2020) 1298-1315. (中文EI)
國際會議論文
31.  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
32.  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
33.  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.

1.  仵斯, 李廷賢, 許嘉興, 吳東靈, 翟天堯, 王如竹. 一種模塊化相變儲熱供熱單元及其制造方法, 2018-6-26, 中國, ZL201610098857.0. (授權(quán))
2.  仵斯, 李廷賢, 許嘉興, 閆霆, 王如竹. 一種高效儲熱單元及其成型模具與制造方法, 2016-11-9, 中國, ZL201510167351.6. (授權(quán))
3.  李廷賢, 仵斯, 王如竹. 一種蓄能型復(fù)合太陽能集熱及熱泵的冷熱聯(lián)供系統(tǒng), 2020-8-25, 中國, ZL201710468393.2. (授權(quán))
4.  李廷賢, 翟天堯, 仵斯, 許嘉興, 吳東靈, 王如竹. 一種太陽能熱驅(qū)動的溫濕度獨立控制空調(diào)系統(tǒng), 2018-11-16, 中國, ZL201610099100.3. (授權(quán))
5.  許嘉興, 李廷賢, 閆霆, 仵斯, 吳東靈, 翟天堯, 王如竹. 一種可實現(xiàn)冷熱聯(lián)供的電動汽車吸附熱池空調(diào)系統(tǒng), 2018-3-9, 中國, ZL201610470203.6. (授權(quán))