1987.09―1990.05上海交通大學(xué)制冷與低溫工程學(xué)科博士生;
1988.4-1990.3在聯(lián)邦德國柏林自由大學(xué)物理系低溫實(shí)驗(yàn)室博士生聯(lián)合培養(yǎng)
1984.09―1987.02上海交通大學(xué)制冷與低溫工程學(xué)科碩士生
1980.09―1984.07上海交通大學(xué)制冷設(shè)備與低溫技術(shù)專業(yè)本科生

1987.02―1987.08  上海交通大學(xué)動力機(jī)械工程系  助教
1990.08―1992.12  上海交通大學(xué)動力機(jī)械工程系　講師
1992.12―1994.12  上海交通大學(xué)動力機(jī)械工程系　副教授
1994.12―              上海交通大學(xué)動力機(jī)械工程系　教授
1993.10―1997.08  上海交通大學(xué)制冷與低溫工程研究所所長
1997.06-2001.12  上海交通大學(xué)動力與能源工程學(xué)院副院長
1999.09-               上海交通大學(xué)制冷與低溫工程研究所所長
2001.05-2007.10   上海交通大學(xué)太陽能發(fā)電及制冷工程研究中心常務(wù)副主任
2001.12-2006.12   上海交通大學(xué)機(jī)械與動力工程學(xué)院副院長
2007.11-                上海交通大學(xué)太陽能發(fā)電及制冷工程研究中心主任

制冷空調(diào)中的能源利用；
低品位熱能制冷技術(shù)；
綠色建筑能源系統(tǒng)；
熱泵技術(shù)及其應(yīng)用；
Energy-Water-Air Nexus;
規(guī)模化儲熱與能質(zhì)調(diào)控

國際制冷學(xué)會熱泵委員會(IIR-E2)副主席；
中國制冷學(xué)會副理事長；
中國工程熱物理學(xué)會常務(wù)理事兼熱力學(xué)與能源利用分會副主任；
中國可再生能源學(xué)會常務(wù)理事、熱利用委員會副主任；
上海市制冷學(xué)會監(jiān)事長；

Energy 主編 (Editor-in-chief)
 International Journal of Refrigeration、Solar Energy 副編輯Associate editor；
制冷學(xué)報(bào)、制冷技術(shù)主編;
Applied Thermal Engineering、Energy Conversion and Management、Device編委；

1. 回?zé)峄刭|(zhì)吸附式制冷循環(huán)實(shí)現(xiàn)了低品位熱能的高效制冷；

2. 變效及變級吸收式制冷循環(huán)實(shí)現(xiàn)了吸收式制冷與三熱源之間的靈活匹配；

3. 除濕換熱器熱泵循環(huán)實(shí)現(xiàn)了除濕靠冷凝余熱回收驅(qū)動，從而提升了蒸發(fā)溫度并降低了冷凝溫度， 實(shí)現(xiàn)了空調(diào)能效提升近100%；

4. 率先開展研發(fā)空氣源熱泵熱水器、小溫差換熱空氣源熱泵供熱、空氣源大溫升熱泵供工業(yè)蒸汽，極大推進(jìn)了空氣源熱泵的應(yīng)用范圍；

5. 建立了上海交通大學(xué)ITEWA跨學(xué)科交叉創(chuàng)新團(tuán)隊(duì)，圍繞Energy-Water-Air-Food Nexus在材料-器件-系統(tǒng)多個(gè)層面上開展了0-1的前沿探索研究、其中空氣取水實(shí)現(xiàn)了產(chǎn)業(yè)化；

6. 提出了熱泵增量儲熱以及儲熱通過熱泵提質(zhì)調(diào)控的新方法，大大增加了儲熱器設(shè)計(jì)和選擇的柔性，為規(guī)模化儲熱與能質(zhì)調(diào)控提供了新思路。
   

1995.01-1996.12  國家自然科學(xué)基金項(xiàng)目“超流氦傳熱中的幾個(gè)特殊物理問題”（7萬元），負(fù)責(zé)人；
1999.01-2001.12  國家自然科學(xué)基金項(xiàng)目“超流氦中的噪聲沸騰傳熱及窄縫通道傳熱研究”（28萬元）， 負(fù)責(zé)人；
2000.04-2004.04   國家重大基礎(chǔ)研究計(jì)劃973項(xiàng)目第9號課題，“高效節(jié)能中的重大科學(xué)問題：能量利用系統(tǒng)的穩(wěn)態(tài)與動態(tài)特性”（246.5萬元），負(fù)責(zé)人；
2003.01-2006.12  國家杰出青年科學(xué)基金項(xiàng)目“基于傳熱傳質(zhì)過程和吸附過程的吸附式制冷循環(huán)分析體系”(100萬元），負(fù)責(zé)人
2006.01-2009.12  國家科技支撐計(jì)劃（2006BAA04B03），“太陽能供熱、制冷、通風(fēng)系統(tǒng)與建筑的接口技術(shù)研究”(563萬元)，負(fù)責(zé)人；
2005.10-2007.12  科技部世博專項(xiàng) 與上海市科委聯(lián)合項(xiàng)目，05dz05807/2005BA908B07, "城市清潔能源高效利用系統(tǒng)技術(shù)研究與示范" (105 萬元)， 結(jié)題，主持
2007.12-2011.12  上海市科委項(xiàng)目, 07DZ22938,"低溫技術(shù)與測試應(yīng)用服務(wù)平臺"(800 萬元)，已結(jié)題，主持.
2003.11-2005.12 上海市科委重點(diǎn)攻關(guān)項(xiàng)目，03DZ12012, "再生能源建筑一體化技術(shù)與系統(tǒng)研究" (100 萬元)，已結(jié)題，主持
2008.01－2011.12  國家自然科學(xué)基金重點(diǎn)項(xiàng)目(項(xiàng)目編號：50736004)，“低品位余熱高效利用的多效雙重吸附制冷研究”（190萬元），負(fù)責(zé)人；
2008.01-2010.12   意大利環(huán)境保護(hù)、國土資源與海洋部國際合作項(xiàng)目，“上海交大綠色能源實(shí)驗(yàn)室”(140萬歐元)， 負(fù)責(zé)人；
2003.07-          日本大金工業(yè)株式會社國際合作項(xiàng)目， “先進(jìn)空調(diào)技術(shù)、系統(tǒng)與市場”(累計(jì)4.5 億日元)， 負(fù)責(zé)人；
2011.01-2014.12   國家自然科學(xué)基金委中日韓A3（亞洲三國）前瞻計(jì)劃國際合作項(xiàng)目“太陽能/地?zé)狎?qū)動的吸附－吸收四聯(lián)供系統(tǒng)”的中方合作課題“高效太陽能吸附制冷系統(tǒng)研究”（200萬元），負(fù)責(zé)人；
2011.03-2012.05   江蘇太陽雨集團(tuán)公司“基于黑箱吸熱體的跟蹤式聚光型中溫太陽能集熱系統(tǒng)
”（110萬元）， 負(fù)責(zé)人；
2011.05-2011.12   山東皇明太陽能有限公司“太陽能熱水驅(qū)動的硅膠---水吸附制冷機(jī)組”（到款16萬元），負(fù)責(zé)人
2001.01-2003.12 教育部博士點(diǎn)基金， 2000024808， “太陽能吸附-噴射制冷聯(lián)合循環(huán)研究”  (5.3萬元)，已結(jié)題， 主持
2005.01-2008.12 教育部博士點(diǎn)基金， 20040248055，”微型冷熱電聯(lián)供系統(tǒng)能量管理及運(yùn)行特性研究” (6萬元)，已結(jié)題， 主持
2008.01-2011.12 教育部博士點(diǎn)基金， 20070248023，”固化混合吸附劑-水吸附制冷工質(zhì)對的性能研究” (8萬元)，已結(jié)題， 主持
2012.01-2015.12 教育部博士點(diǎn)基金優(yōu)先支持項(xiàng)目， 20110073130010， “熱濕獨(dú)立控制熱泵能源系統(tǒng)循環(huán)的理論和實(shí)驗(yàn)研究” (40萬元),在研，主持
2012.01-2014.12 教育部長江學(xué)者和創(chuàng)新團(tuán)隊(duì)發(fā)展計(jì)劃，IRT1159,”制冷空調(diào)系統(tǒng)與高效能源利用” (300萬元)，在研， 主持
2010.10-2013.10 力諾瑞特-上海交大太陽能研究院研發(fā)合作項(xiàng)目 (150萬元)， 在研，主持
2013.01-2022.12 力諾瑞特太陽能熱泵產(chǎn)業(yè)化研發(fā)項(xiàng)目（1000 萬元），在研，主持
2014.01－2018.12  國家自然科學(xué)基金重點(diǎn)項(xiàng)目(項(xiàng)目編號：51336004)，“基于干燥劑除濕和蒸發(fā)制冷耦合的高效熱泵循環(huán)研究”（280萬元），負(fù)責(zé)人； 在研。
2015.10－2018.09  國家自然科學(xué)基金：國際(地區(qū))合作與交流項(xiàng)目(項(xiàng)目編號： 51561145012 )，“太陽能與生物質(zhì)能互補(bǔ)的冷熱電聯(lián)供系統(tǒng)的熱力特性及集成優(yōu)化研究”（300.8萬元），負(fù)責(zé)人； 完成。
2016.01－2021.12  國家自然科學(xué)基金創(chuàng)新群體項(xiàng)目(項(xiàng)目編號： 51521004)，“傳熱傳質(zhì)與高效熱力系統(tǒng)的基礎(chǔ)研究”（1200萬元），負(fù)責(zé)人； 在研。
2016.07-2019.06  十三五國家重點(diǎn)研發(fā)計(jì)劃項(xiàng)目（項(xiàng)目編號：2016YFB0601200），“低品位余能回收技術(shù)及熱泵裝備研發(fā)與示范”（7500萬元，其中國撥2500萬元） ，負(fù)責(zé)人； 在研。
2018.06-2020.06 國家自然科學(xué)基金中國-瑞典國際合作交流 “基于空間分析的熱泵供暖應(yīng)用技術(shù)經(jīng)濟(jì)潛力評價(jià)研究”（50萬元）， 負(fù)責(zé)人，完成。
2018.08-2018.11 國家自然科學(xué)基金， “工程熱物理學(xué)科可再生能源與新能源領(lǐng)域現(xiàn)狀及發(fā)展戰(zhàn)略調(diào)研”（20萬元），負(fù)責(zé)人，完成
2017.06-2020.06 江蘇啟東昂彼得堡有限公司，“上海交通大學(xué)-江蘇昂彼特堡采暖及儲熱技術(shù)聯(lián)合研究中心”（300萬元），負(fù)責(zé)人，完成。
2017.09-2018.10， 上海漢鐘精機(jī)有限公司，“水蒸氣高溫?zé)岜孟到y(tǒng)研究及樣機(jī)開發(fā)項(xiàng)目”（100萬元），負(fù)責(zé)人；完成。
2019-2021， 上海交通大學(xué)-上海漢鐘精機(jī)有限公司聯(lián)合研究中心（300萬元），負(fù)責(zé)人。
2019.07-2022.06，上海交通大學(xué)-歐菲汽車熱管理聯(lián)合研究中心（600萬元），負(fù)責(zé)人。
2021.01-2025.12 國家自然科學(xué)基金重點(diǎn)項(xiàng)目“大溫升熱泵及蒸汽發(fā)生系統(tǒng)的循環(huán)構(gòu)建與應(yīng)用適應(yīng)性研究”（52036004）（380萬元）；負(fù)責(zé)人；在研。
2023.01-2027.12 國家自然科學(xué)基金委重大項(xiàng)目 “規(guī)模化熱能存儲轉(zhuǎn)換與能質(zhì)調(diào)控機(jī)理和方法”（52293410 ) (1483.08萬元）；負(fù)責(zé)人；在研。
2023.08-2026.08  上海交通大學(xué)機(jī)械與動力工程學(xué)院—日出東方控股股份有限公司熱泵關(guān)鍵技術(shù)聯(lián)合研究中心 (項(xiàng)目編號：23H010203075)（600萬元）；負(fù)責(zé)人；在研。

2025.08-2028.07  上海交通大學(xué)機(jī)械與動力工程學(xué)院—華奕新能源科技有限公司聯(lián)合研究中心（600萬元）；負(fù)責(zé)人；在研。

主要著作：

1． 王如竹，吳靜怡，代彥軍等著。吸附式制冷，機(jī)械工業(yè)出版社，2002年7月第1版。ISBN-7-111-09532-4
2． 王如竹、丁國良等著。最新制冷空調(diào)技術(shù)。科學(xué)出版社，2002年9月第1版。ISBN7-03-010677-6
3． 王如竹、代彥軍編著.太陽能制冷，化學(xué)工業(yè)出版社，2007年1月。ISBN7-5025-9317-9
4． 王如竹主編。制冷學(xué)科進(jìn)展研究與發(fā)展報(bào)告。科學(xué)出版社，2007年4月第1版。ISBN978-7-03-018779-6
5． 王如竹，王麗偉，吳靜怡著。吸附式制冷理論與應(yīng)用。科學(xué)出版社，2007年9月第1版。ISBN978-7-03-019886-0
6． 張鵬，王如竹著。超流氦傳熱。科學(xué)出版社，2009年1月第1版。ISBN978-7-03-020240-6
7． 王如竹，翟曉強(qiáng)主編。綠色建筑能源系統(tǒng)，上海交通大學(xué)出版社，2013年10月。ISBN:987-7-313-10243-0
8． Ruzhu Wang, Liwei Wang, Jingyi Wu. Adsorption Refrigeration Technology: Theory and application, John Wiely & Sons Singapore Pte. Ltd. 2014, ISBN:978-1-118-19743-1
9． R.Z. Wang, T.S. Ge., Advances in Solar Heating and Cooling., Elsevier-Woodhead Publishing publications, 2016, ISBN: 978-0-08-100301-5
10． R.Z. Wang, X.Q. Zhai. Handbook of Energy Systems in Green Building, Springer,2018, ISBN:978-3-662-49088-4
11． Liwei Wang, Guoliang An, Jiao Gao, Ruzhu Wang. Property and Energy Conversion Technology of Solid Composite Sorbents. Springer, 2021. Electronic ISSN 1868-1212; Print ISSN 1612-1317
12． 王如竹，何雅玲主編. 低品位余熱的網(wǎng)絡(luò)化利用，科學(xué)出版社，2021年11月第1版。ISBN 978-7-03-070392-7
13． 王如竹，李勇主編. 新能源系統(tǒng)，機(jī)械工業(yè)出版社，2021年12月第1版。ISBN 978-7-111-69292-8


近期頂刊論文：

ITEWA Publications

1. Yaodong Tu，Ruzhu Wang*, Yannan Zhang, Jiayun Wang. Progress and Expectation of Atmospheric Water Harvesting. Joule (2018). 2, 1452-1475. https://doi.org/10.1016/j.joule.2018.07.015
2. Bangjun Li, Lingji Hua, Yaodong Tu, Ruzhu Wang*. A Full-Solid-State Humidity Pump for Localized Humidity Control. Joule (2019)3, 1427-1436. https://doi.org/10.1016/j.joule.2019.03.018
3. Si Wu, Tingxian Li,* Zhen Tong, Jingwei Chao, Tianyao Zhai, Jiaxing Xu, Taisen Yan, Minqiang Wu, Zhenyuan Xu, Hua Bao, Tao Deng,* and Ruzhu Wang*.. High-Performance Thermally Conductive Phase Change Composites by Large-Size Oriented Graphite Sheets for Scalable Thermal Energy Harvesting. Advanced Materials (2019)31, 1905099. https://doi.org/10.1002/adma.201905099
4. Chenxi Wang, Lingji Hua,Hongzhi Yan, Bangjun Li, Yaodong Tu, Ruzhu Wang*.(2020). A Thermal Management Strategy for Electronic Devices Based on Moisture Sorption-Desorption Processes, Joule (2019), 4, 435–447. https://doi.org/10.1016/j.joule.2019.12.005
5. Yannan Zhang , Haohui Dong , Ruzhu Wang *, Penghui Feng. Air humidity assisted sorption thermal battery governed by reaction wave model. Energy Storage Materials  (2020) 27: 9–16. https://doi.org/10.1016/j.ensm.2020.01.012
6. Jiaxing Xu, Tingxian Li,* Jingwei Chao, Si Wu, Taisen Yan, Wenchen Li, Biye Cao, and Ruzhu Wang* (2020). Efficient Solar-Driven Water Harvesting from Arid Air with Metal–Organic Frameworks Modified by Hygroscopic Salt. Angew. Chem. Int. Ed. (2020), 59, 2–11. https://doi.org/10.1002/anie.201915170
7. Zhenyuan Xu, Lenan Zhang, Lin Zhao, Bangjun Li, Bikram Bhatia, Chenxi Wang, Kyle L. Wilke, Youngsup Song, Omar Labban,John H. Lienhard, Ruzhu Wang * and Evelyn N. Wang *. Ultrahigh-efficiency desalination via a thermally-localized multistage solar still. Energy & Environmental Science, 2020, 13, 830 -839. https://doi.org/10.1039/c9ee04122b
8. Yannan Zhang, Ruzhu Wang*. Sorption Thermal Energy Storage: Concept, Process, Applications and Perspectives. Energy Storage Materials 27 (2020) 352–369.
https://doi.org/10.1016/j.ensm.2020.02.024
9. Akram Entezari, Mojtaba Ejeian, Ruzhu Wang*. Super atmospheric water harvesting hydrogel with alginate chains modified with binary salts. ACS Materials Letters,  2020, 2, 5, 471–477. https://doi.org/10.1021/acsmaterialslett.9b00315
10. Xuancan Zhu, Tianshu Ge,* Fan Yang，Meng Lyu, Chunping Chen, Dermot O’Hare, and Ruzhu Wang*. Efficient CO2 Capture from Ambient Air with Amine-Functionalized Mg–Al Mixed Metal Oxides. Journal of Materials Chemistry A, https://doi.org/10.1039/D0TA05079B
11. Jiaxing Xu,? Jingwei Chao,? Tingxian Li,?,* Taisen Yan, Si Wu, Minqiang Wu, Bingchen Zhao, and Ruzhu Wang*. Near-Zero-Energy Smart Battery Thermal Management Enabled by Sorption Energy Harvesting from Air. ACS Central Science 2020, https://dx.doi.org/10.1021/acscentsci.0c00570.
12. Si Wu,? Tingxian Li, ?* Minqiang Wu, Jiaxing Xu, Yihao Hu, Jingwei Chao,Taisen Yan and Ruzhu 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, 2020, 8, 20011-20020  https://doi.org/10.1039/D0TA05904H
13. Larisa G. Gordeeva, Yaodong Tu, Quanwen Pan, M.L. Palash, Bidyut B. Saha, Yuri I. Aristov and Ruzhu Wang*, Metal-organic frameworks for energy conversion and water harvesting: a bridge between thermal engineering and material science, Nano Energy, Volume 84, June 2021, 105946  https://doi.org/10.1016/j.nanoen.2021.105946
14. Lingj Hua,Jiaxing Xu,Ruzhu Wang*. Exergy-efficient boundary and design guidelines for atmospheric water harvesters with nano-porous sorbents，Nano Energy, Volume 85, July 2021, 105977，https://doi.org/10.1016/j.nanoen.2021.105977
15. Qiuming Ma, Zhenyuan Xu, Ruzhu Wang*. Distributed solar desalination by membrane distillation: current status and future perspectives. Water Research (2021), 198, 117154. https://doi.org/10.1016/j.watres.2021.117154
16. Taisen Yan, Tingxian Li*, Jiaxing Xu, Jingwei Chao, Ruzhu Wang*, Yuri I. Aristov, Larisa G. Gordeeva, Pradip Dutta and S. Srinivasa Murthy. Ultrahigh-Energy-Density Sorption Thermal Battery Enabled by Graphene Aerogel-Based Composite Sorbents for Thermal Energy Harvesting from Air. ACS Energy Letters 2021, 6, 5, 1795–1802, https://doi.org/10.1021/acsenergylett.1c00284
17. M. Ejeian, R.Z. Wang*. Adsorption-based atmospheric water harvesting, Joule, 5, 1678–1703, July 21, 2021. https://doi.org/10.1016/ j.joule.2021.04.005
18. Si Wu, Tingxian Li*, Minqiang Wu, Jiaxing Xu, Jingwei Chao,Yihao Hu, Taisen Yan, Qin-Yi Li , and Ruzhu Wang*. Dual-Functional Aligned and Interconnected Graphite Nanoplatelet Networks for Accelerating Solar Thermal Energy Harvesting and Storage within Phase Change Materials. ACS Appl. Mater. Interfaces 2021, 13, 16, 19200–19210. https://doi.org/10.1021/acsami.0c22814
19. Xuancan Zhu, Meng Lyu, Tianshu Ge*, Fan Yang, Dermot O’Hare, Ruzhu Wang*. Modified layered double hydroxides for efficient and reversible carbon dioxide capture from air. Cell Reports Physical Science 2, 100484 July 21, 2021. https://doi.org/10.1016/j.xcrp.2021.100484
20. Tingxian Li*, Minqiang Wu, Si Wu, Shizhao Xiang, Jiaxing Xu, Jingwei Chao, Taisen Yan, Tao Deng*, Ruzhu 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, Volume 89, Part A, November 2021, 106338 https://doi.org/10.1016/j.nanoen.2021.106338
21. 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   https://doi.org/10.1016/j.ensm.2021.07.019
22. Yaohui Feng, Tianshu Ge*, Bin Chen, Guowu Zhan, Ruzhu Wang*. A regulation strategy of sorbent stepwise position for boosting atmospheric water harvesting in arid area, Cell Reports Physical Science  2, 100561, September  22, 2021, https://doi.org/10.1016/j.xcrp.2021.100561
23. Z.Y. Zeng, B.C. Zhao, R.Z. Wang*. Passive day and night heating for zero energy buildings with solar-based adsorption thermal battery. Cell Reports Physical Science  2, 100578, September 22, 2021, https://doi.org/10.1016/j.xcrp.2021.100578
24. Jiaxing Xu,? Tingxian Li,*,? Taisen Yan,? Si Wu, Minqiang Wu, Jingwei Chao, Xiangyan Huo, Pengfei Wang, and Ruzhu Wang*. Ultrahigh solar-driven atmospheric water production enabled by scalable rapid-cycling water harvester with vertically aligned nanocomposite sorbent. Energy & Environmental Science 2021. https://doi.org/10.1039/D1EE01723C
25. Tianyu Yang, Lurong Ge, Tianshu Ge,* Guowu Zhan, and Ruzhu Wang*. Binder-Free Growth of Aluminum-Based Metal–Organic Frameworks on Aluminum Substrate for Enhanced Water Adsorption Capacity. Adv. Funct. Mater. 2021, 2105267 . https://doi.org/10.1002/adfm.202105267
26. Fangfang Deng , Chenxi Wang , Chengjie Xiang , Ruzhu Wang *. Bioinspired topological design of super hygroscopic complex for cost-effective atmospheric water harvesting, Nano Energy 90 (2021) 106642. https://doi.org/10.1016/j.nanoen.2021.106642
27. Si Wu, Tingxian Li *, Zhao-Yang Zhang, Tao Li, and Ruzhu Wang*. Photoswitchable phase change materials for unconventional thermal energy storage and upgrade. Matter, 2021, 4:3385–3399. https://doi.org/10.1016/j.matt.2021.09.017
28. He Shan, Quanwen Pan, Chengjie Xiang, Primoz Poredos, Qiuming Ma, Zhanyu Ye, Guodong Hou, and Ruzhu Wang*. High-yield solar-driven atmospheric water harvesting with ultra-high salt content composites encapsulated in porous membrane, Cell Reports Physical Science (2021), 2, 100664, https://doi.org/10.1016/j.xcrp.2021.100664
29. Zhangli Liu, Jiaxing Xu, Min Xu*, Caifeng Huang, Ruzhu Wang, Tingxian Li * & Xiulan Huai*. Ultralow-temperature-driven water-based sorption refrigeration enabled by low-cost zeolite-like porous aluminophosphate. NATURE COMMUNICATIONS,| (2022) 13:193 | https://doi.org/10.1038/s41467-021-27883-4.
30. Wenwen Wang, Quanwen Pan, Zheli Xing, Xueying Liu, Yanjun Dai, Ruzhu Wang, Tianshu Ge, Viability of a practical multicyclic sorption-based water harvester with improved water yield. Water Research, Volume 211, 1 March 2022, 118029  https://doi.org/10.1016/j.watres.2021.118029
31. Fangfang Deng, Chengjie Xiang, Chenxi Wang and Ruzhu Wang *.Sorption-tree with scalable hygroscopic adsorbent-leaves for water harvesting. Journal of Materials Chemistry A, 2022, 10, 6576 – 6586 DOI: 10.1039/d2ta00484d
32. H.R.Liu,C.X.Wang,B.J.Li,L.J.Hua,J.Q.Yu,R.Z.Wang*. Reversible Sweat Cooling on Mobile Electronic Devices by Metal-Organic Frameworks based Moisture Sorption-Desorption Process. Materials Today Nano, 2022, 18, https://doi.org/10.1016/j.mtnano.2022.100198
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34. Primoz Poredos, He Shan, and Ruzhu Wang*. Dehumidification with solid hygroscopic sorbents for low-carbon air conditioning, Joule 6, 1390–1393, July 20, 2022. DOI:https://doi.org/10.1016/j.joule.2022.06.020, https://www.cell.com/joule/fulltext/S2542-4351(22)00294-X
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37. Zhenpeng Li, Tao Ma*, Senji Li, Wenbo Gu, Lin Lu, Hongxing Yang, Yanjun Dai, and Ruzhu Wang*. High-Efficiency, Mass-Producible, and Colored Solar Photovoltaics Enabled by Self-Assembled Photonic Glass. ACS Nano 2022, 16, 7, 11473–11482. https://doi.org/10.1021/acsnano.2c05840
38. He Shan, Chunfeng Li, Zhihui Chen, Wenjun Ying, Primo? Poredo?, Zhanyu Ye, Quanwen Pan*, Jiayun Wang, Ruzhu Wang*. Exceptional water production yield enabled by batch-processed portable water harvester in semi-arid climate. Nature Communications | (2022) 13:5406, https://doi.org/10.1038/s41467-022-33062-w
39. Zhihui Chen, Zhao Shao, Yucheng Tang, Fangfang Deng, Shuai Du and Ruzhu Wang*. Study of the Scale-Up Effect on the Water Sorption Performance of MOF Materials. ACS Materials Au, 2022. https://doi.org/10.1021/acsmaterialsau.2c00052
40. Tingxian Li?*, Minqiang Wu?, Jiaxing Xu?, Ruxue Du, Taisen Yan, Pengfei Wang, Zhaoyuan Bai, Ruzhu Wang, Siqi Wang. Simultaneous Atmospheric Water Production and 24-hour Power Generation Enabled by Moisture-induced Energy Harvesting. Nature Communications | (2022) 13: 6771. https://doi.org/10.1038/s41467-022-34385-4
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累計(jì)專利163項(xiàng)，其中 1 EU patent, 1 USA patent, and 161 CN patents

[1] R.Z. Wang, Y.D. Tu. T.S. Ge. Self-contained air conditioning system and use method. 2021, EP3457038. (UK, Germany, France, Italy, Spain)
[2] R.Z. Wang, Y.D. Tu. T.S. Ge. Unitary air conditioning systems with temperature and humidity loosely- coupled control and use method. US Patent 16/300.571
[3] B.Y. ZHAO, Y. LI, R.Z. Wang, M. HUANG, X.F. ZHANG, Y.Y. JIANG. Photovoltaic ice storage air conditioner prediction control method and photovoltaic ice storage air conditioner using same. 2021. CN Patent CN202010943649.2.
[4] S. DU; Z.X. WANG; R.Z. WANG, H.Y. LI. S-type tube bundle falling film absorber. 2021. CN Patent CN201911108064.2.
[5] T.S. Ge, J.Y. Wu, X.C. Zhu, F. Yang, R.Z. Wang. Overall structure adsorbent based on amine functionalized silica sol, preparation method and application. 2021. CN Patent CN202110484154.2.
[6] Z.G. Wang, R.Z. Wang. Room air conditioner based on moisture storage heat exchanger and evaporation pre-treatment. 2021. CN Patent CN202010763200.8.
[7] F.F. Deng, C.X. Wang, R.Z. Wang, S. Du, H. Zou. Greenhouse heat and humidity control, energy-saving and water-saving device and method. 2021. CN Patent CN202110391351.X.
[8] H. Zou, C.X. Wang, R.Z. Wang, S. Du, F.F. Deng. Greenhouse heat storage and dehumidification equipment and working methods. 2021. CN Patent CN202110368370.0.
[9] Q.W. Pan, R.Z. Wang. Adsorption type refrigeration system and operation method thereof. 2021. CN Patent CN202110290387.9.
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[11] R.Z. Wang, D. Wu, B.Hu. Heating and heat supply dual-supply system utilizing ice-water mixture to store solar energy. 2021. CN Patent CN202021815551.0.
[12] T.S. Ge, T.Y. Yang, L.R. Ge, R.Z. Wang. MOFs self-growing coating metal-based dehumidifying fin and preparation method and application thereof. 2021. CN Patent CN202011386378.1.
[13] B.J. Li, R.Z. Wang. Thermoelectric adsorption dehumidification device of rotating structure and using method thereof. 2021. CN Patent CN201710672322.4.
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[17] S. Du, Z.X. Wang, R.Z. Wang. Ammonia diffusion absorption refrigeration system and method. 2020. CN Patent CN201811612610.1.
[18] Q.W. Pan, R.Z. Wang, H.R. Liu. Electric automobile thermal management system. 2020. CN Patent CN201910111455.3.
[19] Z.Y. Xu, R.Z. Wang, Q.W. Pan. Heat coupling compression absorption type waste heat recovering type heat pump circulation system and method. 2020. CN Patent CN201710662315.6.
[20] T.S. Ge, F.L. Lu, L.J. Hua, J.Q. Liu, R.Z. Wang, Y.J. Dai. Double-inner-cold-source two-stage cooling dehumidification heat pump system. 2020. CN Patent CN201810495482.0.
[21] S.Z. Xu, R.Z. Wang, L.W. Wang. Thermochemical adsorption heat storage device. 2020. CN Patent CN201810172793.3.
[22] Z.Y. Xu, R.Z. Wang, Q.W. Pan. Absorption type heat storing system cooled by adopting absorption type refrigerating and control method of heat storing system. 2020. CN Patent CN201710662835.7.
[23] B.J. Li, R.Z. Wang. Control method for thermoelectric adsorbing dehumidifying device. 2020. CN Patent CN201710737118.6.
[24] Z.Y. Xu, R.Z. Wang, Q.W. Pan. Double pressure absorption type heat storage system and control method thereof. 2020. CN Patent CN201710661627.5.
[25] Z.Y. Xu, R.Z. Wang, Q.W. Pan. Reabsorption and absorption happening heat transferring combined absorption type circulation system and method. 2020. CN Patent CN201710662834.2.
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[27] B. Hu, D. Wu, J.T. Jiang, R.Z. Wang. Water working medium injection type heat pump system realizing cascaded recovery of waste heat and working method thereof. 2020. CN Patent CN201910411796.2.
[28] Y.N. Zhang, Y.D. Tu, R.Z. Wang. Open independent temperature and humidity control solar direct-driven air conditioning system and working method thereof. 2020. CN Patent CN201811326535.2.
[29] T.S. Ge, F.L. Lu, Y.J. Dai, R.Z. Wang. Two-stage dual-dehumidification-evaporator and dual-dehumidification-condenser dehumidification heat pump system and method. 2020. CN Patent CN201710335734.9.
[30] B. Hu, M. Zhou, R.Z. Wang, X. Zhou. Device for controlling heat and humidity alternating environment and heat and humidity alternating test box. 2020. CN Patent CN201911156941.3.
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[32] B.Y. Zhao, Y. Li, R.Z. Wang, Z.G. Zhao, X.F. Zhang, W. Zhang. Grid-connected photovoltaic ice storage air conditioning system. 2020. CN Patent CN201920568259.4.
[33] Y. N. Zhang, R.Z. Wang, T.X. Li, A.F. Cai. Thermo-chemical adsorption heat storage system for building heating. 2019. CN Patent CN201711091875.7.
[34] T.X. Li, D.L. Wu, R.Z. Wang. Distribution type efficient energy-saving phase change heat storage system. 2019. CN Patent CN201710451617.9.
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[39] X.M. Chen, M. Huang, Z. Liu, Y. Li, Z.G. Zhao, R.Z. Wang. A method of calculating energy interval of photovoltaic module. 2019. CN Patent CN201910334288.9.
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[41] Y.H. Huang, W.B. Jiang, R.Z. Wang, J.Y. Wu, R. Duan, G.P. Chen, L. Zhang, Z. Jiang. Detachable type ground test supercritical helium storage container restraining thermal-acoustic oscillation. 2019. CN Patent CN201710986259.1.
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[45] L.W. Wang, Y. Yu, R.Z. Wang, L. Jiang, P. Gao. Thermo-chemical adsorption heat pipe device driven by utilizing low-grade heat energy. 2019. CN Patent CN201610825141.6.
[46] Y.H. Huang, H. Lin, A.F. Cai, R.Z. Wang. Vacuum insulation protecting type performance testing system for small low-temperature liquid pump. 2019. CN Patent CN201710353946.X.
[47] Y.D. Tu, R.Z. Wang, T.S. Ge. Temperature and humidity weak correlation control method for air conditioning system. 2019. CN Patent CN201610316675.6.
[48] T.X. Li, Y.F.Cai, R.Z. Wang. Air source heat pump defrosting system based on waste heat phase change energy storage of compressor. 2019. CN Patent CN201811011970.6.
[49] B. Hu, H.Z. Yan, R.Z. Wang. Air energy boiler steam supply system. 2019. CN Patent CN201811088773.4.
[50] Y.H. Huang, W. Li, R.Z. Wang. Electromagnetic clutch active control contact type thermal switch device for low temperature system. 2019. CN Patent CN201710271678.7.
[51] T.S. Ge, F.L. Lu, L.J. Hua, J.Q. Liu, R.Z. Wang, Y.J. Dai. Double-inner-cold-source two-stage cooling dehumidification heat pump system. 2018. CN:201810495482:A.
[52] L.W. Wang, Z.X. Wang, P. Gao, R.Z. Wang. Solid-state multi-salt adsorbent and solid-state multi-salt ammonia storage module. 2018. CN Patent CN201810322656.3.
[53] S.Z. Xu, R.Z. Wang, L.W. Wang. Thermochemical adsorption heat storage device. 2018. CN Patent CN201810172793.3.
[54] B. Hu, D. Wu, R.Z. Wang. Steam and hot water combined supply air energy boiler system. 2018. CN Patent CN201711397931.X.
[55] R.Z. Wang, D. Wu, B. Hu. Heat pump heat supplying system adopting heat storage medium for solar energy water phase change storage. 2018. CN Patent CN201711280054.8.
[56] T.X. Li, T.Y. Zhai, R.Z. Wang. Assembled split-area modular phase-change heat reservoir and preparation thereof. 2018. CN Patent CN201711077901.0.
[57] B. Hu, D. Wu, R.Z. Wang, N.S. Jiang, J.J. Yu, Z.L. Li. High temperature heat pump circulation system by adopting natural working medium water and working method of high temperature heat pump circulation system. 2018. CN Patent CN201710962766.1.
[58] T.X. Li, D.L. Wu, R.Z. Wang. Air source heat pump water heater high-density heat storage integrated machine. 2018. CN Patent CN201710978187.6.
[59] L.W. Wang, Z.X. Wang, G.L. An, P. Gao, R.Z. Wang. Adsorption and energy storage type air conditioning system and control method thereof. 2018. CN Patent CN201710625762.4.
[60] T.X. Li, S. Wu, R.Z. Wang. A combined cooling, heating and power generation system with solar collector, heat pump and thermal storage. 2017. CN Patent CN201710468393.2.
[61] T.S. Ge. F.L. Lu, Y.J. Dai, R.Z. Wang. Desiccant heat pump system with half-decoupled cooling-dehumidification and staged cooling. 2017, CN Patent CN201710335443.X.
[62] J. Gao, L.W. Wang, P. Gao, J.Y. Liu, R.Z. Wang. An adsorption energy storage and refrigeration system with multiple compound salts. 2017, CN Patent CN201710188396.0.
[63] Y.J. Dai, C.Y. Jiang, G.Q. Li, R.Z. Wang. Building integrated solar collector-evaporator for solar heat pump.
[64] J. C. Ma, X.Y. Jiang, Z. Zhou, R.Z. Wang, Self-powered anti-scaling system for vacuum tube solar collector. 2017, CN Patent ZL201510374618.9.
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[66] J.Y. Wang, R.Z. Wang, L.W. Wang. Solidification of compound adsorbent with CaCl2-Activatied carbon fibre. 2016, CN Patent CN201610407237.0.
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[69] Q.W. Pan, R.Z. Wang.  Adsorption chiller with self-controlled refrigerant flow. 2016, CN Patent ZL201610232916.9.
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