科研项目

1. 
   
2. 近年来以通讯或第一作者发表的国际著名期刊包括Science (2篇), PNAS, Nature Communications (3篇), Joule (2篇), Chemical Society Reviews, Advanced Materials (4篇), Energy & Environmental Science, Advanced Energy Materials (2篇), Nano Letters (8篇), ACS Nano (2篇)等；发表论著2章；目前已授权中国专利9项，美国与韩国专利6项；申请中国专利12项、国际专利2项。
3. 
   
4. 论文：
   
   
5. 2025年：
6. 
   
7. 39. Lili Liu, Xin Guo, Ding Zhang*, Rujun Ma*, "Thermogalvanic hydrogels for low-grade heat harvesting and health monitoring", Materials Horizons, 2025. (PDF)
   38. Yiwen Bo#, Hengxiang Zhang#, Heng Cui, Peijia Bai, Guangfa Wang, Rujun Ma*, "Temperature-Insensitive Ferroelectric Polymer Film for Electrocaloric Refrigeration", ACS Applied Materials & Interfaces, (2025). (PDF)

1. 37. Lili Liu, Ding Zhang*, Peijia Bai, Yanjie Fang, Jiaqi Guo, Qi Li, Rujun Ma*,"Fatigue-resistant and super-tough thermocells", Nature Communications, 16, 1963 (2025). (PDF)

1. 
   
2. 2024年：
   
3. 36. Shixiong Yu#, Yuetong Zhou#, Peijia Bai, Quan Zhang, Wenlong Cui, Boxiao Zhang, Rujun Ma*, "Anodization-Processed Colored Radiative Thermoregulatory Film", Nano Letters 24, 46, 14758-14765 (2024). (PDF)
4. 35. Kailun Zou#, Peijia Bai#, Kanghua Li, Fangyuan Luo, Jiajie Liang, Ling Lin, Rujun Ma*, Qi Li*, Shenglin Jiang, Qing Wang*, Guangzu Zhang*, "Electronic cooling and energy harvesting using ferroelectric polymer composites", Nature Communications, 15, 6670 (2024). (PDF)
5. 34. Yuetong Zhou#, Ding Zhang#, Shuai Zhang, Yuqing Liu, Rujun Ma*, Gordon Wallace*, and Jun Chen*, "Highly Stretchable Double-network Gel Electrolytes Integrated with Textile Electrodes for Wearable Thermo-electrochemical cells", SusMat, 4, e225 (2024). (PDF)
6. 33. Quan Zhang*, Zhonghao Rao and Rujun Ma*, "Radiative cooling: arising from practice and in turn serving practice",  Nanophotonics 13, 5, 563–582 (2024).(PDF)
7. 32. Yiwen Bo, Quan Zhang, Peijia Bai,  Heng Cui,  Lili Liu,  Guangfa Wang,  Liteng Wang,  Shaoheng Yuan,  Zhengxue Zhou, Rujun Ma*, "Flexible active pixel-matrix ultrafast thermal camouflage using square-wave temperature", Joule, 8, 7, 2160-2169 (2024). (PDF)
8. 31. Ding Zhang#, Qi Li#, Yanjie Fang, Peijia Bai, Lili Liu, Jiaqi Guo, Guangfa Wang, Yuetong Zhou, Rujun Ma*, "High-performance wood-based thermoelectric sponges for thermal energy harvesting and smart buildings", Nano Research 17, 6, 5349-5357 (2024). (PDF)
9. 30. Ding Zhang, Yanjie Fang, Lili Liu, Yuetong Zhou, Peijia Bai, Qi Li, Jiaqi Guo, Rujun Ma*, "Boosting Thermoelectric Performance of Thermogalvanic Hydrogels by Structure Engineering Induced by Liquid Nitrogen Quenching", Advanced Energy Materials 14, 10, 2303358 (2024). (PDF)
10. 
    
11. 2023年：
12. 29. Ziyuan Wang#, Yiwen Bo#, Peijia Bai, Shuchao Zhang, Guanghui Li, Xiangjian Wan, Yongsheng Liu*, Rujun Ma*, Yongsheng Chen*, “Self-sustaining personal all-day thermoregulatory clothing using only sunlight”, Science 382, 1291- 1296 (2023). (PDF)
13. 28. Ding Zhang, Yuetong Zhou, Yin Mao,Qi Li,Lili Liu, Peijia Bai, and Rujun Ma*,"Highly Antifreezing Thermogalvanic Hydrogels for Human Heat Harvesting in Ultralow Temperature Environments", Nano Letters 23, 23, 11272-11279 (2023). (PDF)
    
14. 27. Shixiong Yu, Quan Zhang, Lili Liu, Rujun Ma*, "Thermochromic Conductive Fibers with Modifiable Solar Absorption for Personal Thermal Management and Temperature Visualization", ACS Nano 17, 20, 20299–20307 (2023). (PDF)
15. 26. Lili Liu#, Ding Zhang#, Peijia Bai, YinMao, Qi Li, Jiaqi Guo, Yanjie Fang, RujunMa*, "Strongtough thermogalvanic hydrogel thermocell with extraordinarily highthermoelectric performance", Advanced Materials 35, 2300696 (2023). (PDF)
    
16. 25. Peijia Bai, Quan Zhang, Heng Cui, Yiwen Bo, Ding Zhang,  Wen He, Yongsheng Chen, Rujun Ma*, "An Active Pixel-Matrix Electrocaloric Device for Targeted and Differential Thermal Management", Advanced Materials, 35, 2209181 (2023). (PDF)
    
17. 24. Peijia Bai, Heng Cui, Ding Zhang, Yiwen Bo, Lili Liu, Rujun Ma*, "A highly efficient cascade electrocaloric cooling tube with enhanced temperature change by sawtooth voltage",  Next Materials, 1, 1, 100001 (2023). (PDF)
18. 23. Hui Chi, Wen He, Danying Zhao, Rujun Ma*, Yunhe Zhang*, Zhenhua Jiang, "Recent progress of dielectric polymer composites for bionics", Science China Materials 66, 22–34 (2023). (PDF)
19. 
    
20. 2022年：
21. 22. Quan Zhang#, Yufeng Wang#, Yiwen Lv, Shixiong Yu, Rujun Ma*, "Bioinspired zero-energy thermal-management device based on visible and infrared thermochromism for all-season energy saving", Proceedings of the National Academy of Sciences, 119, 38, e2207353119.（PDF）
22. 21. Quan Zhang#, Yiwen Lv#, Yufeng Wang, Shixiong Yu, Chenxi Li, Rujun Ma* & Yongsheng Chen*, "Temperature-dependent dual-mode thermal management device with net zero energy for year-round energy saving", Nature Communications, 13:4874 (2022). (PDF)
23. 20. Kailun Zou, Cancan Shao, Peijia Bai, Chao Zhang, Ying Yang, Rundong Guo, Houbing Huang*, Wei Luo, Rujun Ma*, Yong Cao, Aixiang Sun, Guangzu Zhang*, and Shenglin Jiang, "Giant Room-Temperature Electrocaloric Effect of Polymer-Ceramic Composites with Orientated BaSrTiO3 Nanofibers", Nano Letters, (2022). (PDF)
24. 19. Ding Zhang, Yin Mao, Fei Ye, Qi Li, Peijia Bai, Wen He and  Rujun Ma*, "Stretchable thermogalvanic hydrogel thermocell with record-high specific output power density enabled by ion-induced crystallization", Energy & Environmental Science, 15, 2974-2982 (2022). (PDF)
25. 18. Ding Zhang, Yin Mao, Peijia Bai, Qi Li, Wen He, Heng Cui, FeiYe, Chenxi Li, Rujun Ma*, Yongsheng Chen*, "Multifunctional Superelastic Graphene-based Thermoelectric Sponges for Wearable and Thermal Management Devices", Nano Letters, 22, 8, 3417-3424 (2022). (PDF)
    
26. 17. Shixiong Yu#, Quan Zhang#, Yufeng Wang, Yiwen Lv, and Rujun Ma*, "Photonic-Structure Colored Radiative Coolers for Daytime Subambient Cooling", Nano Letters, 22, 12, 4925–4932 (2022). (PDF)
    
27. 16. Heng Cui#, Quan Zhang#, Yiwen Bo, Peijia Bai, Mengyan Wang, Chunyang Zhang, Xiaoshi Qian*, RujunMa*, "Flexible microfluidic electrocaloric cooling capillary tube with giant specific device cooling power density", Joule, 6, 258-268, (2022) (PDF)
    
28. 15. Wen He#, Siyang Li#, Peijia Bai , Ding Zhang , Linlin Feng, Liteng Wang, Xiang Fu, Heng Cui, Xinyi Ji, Rujun Ma*, "Multifunctional triboelectric nanogenerator based on flexible and self-healing sandwich structural film" Nano Energy, 96, 107109 (2022)（PDF）
29. 
    
30. 
    

1. 2021年：
   

1. 14. Yiwen Bo#, Quan Zhang#, Heng Cui, Mengyan Wang, Chunyang Zhang, Wen He, Xiangqian Fan, Yiwen Lv, Xiang Fu, Jiajie Liang, Yi Huang, Rujun Ma*, and Yongsheng Chen, "Electrostatic Actuating Double-Unit Electrocaloric Cooling Device with High Efficiency", Advanced Energy Materials, 2003771 (2021) (PDF)
   
2. 13. Chunyang Zhang#, Quan Zhang#, Ding Zhang, Mengyan Wang, Yiwen Bo, Xiangqian Fan, Fengchao Li, Jiajie Liang, Yi Huang, Rujun Ma*, Yongsheng Chen, “Highly Stretchable Carbon Nanotubes/Polymer Thermoelectric Fibers”, Nano Letters, 21, 1047-1055(2021) (PDF)
   
3. 12. Wen He#, Xiang Fu#, Peijia Bai, Ding Zhang, Heng Cui, and Rujun Ma*，“High-Performance Coaxial Asymmetry Fibrous Supercapacitors with a Poly(vinyl alcohol)–Montmorillonite Separator”，Nano Letters, 21, 9164–9171 (2021). (PDF)
   
4. 11. Wen He, Xiang Fu, Ding Zhang, Quan Zhang, Kai Zhuo, Zhongyun Yuan, and Rujun Ma*, "Recent progress of flexible/wearable self-charging powerunits based on triboelectric nanogenerators", Nano Energy, 84, 105880 (2021) (PDF)
5. 10. Mengyan Wang#, Quan Zhang#, Yiwen Bo, Chunyang Zhang, Yiwen Lv, Xiang Fu,Wen He, Xiangqian Fan, Jiajie Liang, Yi Huang, Rujun Ma*, Yongsheng Chen,"Highly Stretchable Shape Memory Self‑Soldering Conductive Tape with Reversible Adhesion Switched by Temperature", Nano-Micro Letters 13:124 (2021) (PDF)
6. 
   

1. 2020年：
   
2. 9. Wen He, Minkyun Sohn, Rujun Ma*, Dae Joon Kang*, “Flexible single-electrode triboelectricnanogenerators with MXene/PDMS composite film for biomechanical motion sensors”, Nano Energy, 78,105083 (2020) (PDF)
   
3. 8. Wen He, Rujun Ma*, Dae Joon Kang*, "High-performance, flexible planar microsupercapacitors based on crosslinked polyaniline using laser printing lithography", Carbon, 161, 117-122 (2022) (PDF)
   
4. 
   

1. 2019年及以前：
   

1. 7. Quan Zhang, Jiajie Liang, Yi Huang, Huiyu Chen and Rujun Ma*, "Intrinsically stretchable conductors and interconnects for electronic applications", Materials Chemistry Frontiers, 3, 1032-1051, (2019) (PDF)
2. 6. Rujun Ma*, Shu-Yu Chou, Yu Xie and Qibing Pei*, “Morphological/Nanostructural Controls Toward Intrinsically Stretchable Organic Electronics”, Chemical Society Reviews, 48, 1741-1786 (2019) (PDF)
3. 5.Rujun Ma, Ziyang Zhang,Kwing Tong, David Huber, Roy Kornbluh, Yongho Sungtaek Ju and Qibing Pei*,“Highly Efficient Electrocaloric Cooling with Electrostatic Actuation”, Science, 357,1130–1134 (2017) (PDF)
4. 4. Rujun Ma, Byeongguk Kang, SuikCho, Minjun Choi, and Seunghyun Baik*, “Extraordinary High Conductivity andStrength of Stretchable Fibers of Polyurethane and Silver Nanoflowers”, ACS Nano, 9,10876-10886 (2015) (PDF)
5. 3. Rujun Ma, Jiyong Lee, DongminChoi, Hyungpil Moon, and Seunghyun Baik*, “Knitted Fabrics Made from Highly Conductive Stretchable Fibers”, Nano Letters, 14, 1944-1951 (2014) (PDF)
6. 2. Rujun Ma, Mini MolMenamparambath, Qing Pavel Nikolaev, and Seunghyun Baik*, “Transparent Stretchable Single-walled Carbon Nanotube-polymer Composite Films with Near-infrared Fluorescence”, Advanced Materials, 25, 2548-2553 (2013) (PDF)
7. 1. Rujun Ma, Seoyoung Kwon, QingZheng, HyeokYong Kwon, Jae Il Kim, Hyouk Ryeol Choi, and Seunghyun Baik*,“Carbon-nanotube/silver Networks in Nitrile Butadiene Rubber for Highly Conductive Flexible Adhesives”, Advanced Materials, 24, 3344-3349 (2012) (PDF)

英文专著：
2. Ding Zhang, Wen He, Rujun Ma*, Chapter 22 in “Concepts and design of materials nanoarchitectonics”: nanoarchitectonics of stretchable organic electronics materials, RoyalSociety of Chemistry, 2022, 518-545.（链接）

1. Heng Cui#, Wen He#, Qibing Pei, Rujun Ma*, Chapter 16 in “Organic ferroelectric materials and applications”: electrocaloric effects in ferroelectric polymers, WoodheadPublishing, 2022, 535-570.（链接)

中国专利（申请）: 
1. [1]     马儒军，王广发，白培加；一种用于人体热管理的单电池驱动多层聚合物电卡器件及其制备方法；CN202411549885.0；2024
   

2. [2]     陈永胜，马儒军，刘永胜，王子源，薄轶文，邹宇；一种全天候、自供电、冷热双向可控的体温调节服及其制备方法；CN202311078243.2；2023

   [3]     马儒军，俞世雄；一种具备温度可视化功能的个人热管理织物及其制备方法；CN202311293346.0；2023

   [4]     马儒军，崔文龙，周玥桐；一种零能耗双模组的热管理织物及其制备方法；CN202411869351.6；2024

   [5]     马儒军，白培加，薄轶文；一种基于电卡效应的点阵式精准时空制冷器件及其制备方法；CN202311133729.1；2023

   [6]     马儒军，薄轶文，白培加；一种可见光-红外波段超快伪装器件及其制备方法和应用；CN202410455003.8；2024

   [7]     马儒军，薄轶文，白培加；一种用于电卡材料的高压方波发生电路及其应用；CN202311808714.0；2023

   [8]     马儒军，俞世雄，周玥桐；一种彩色双模组的Janus辐射热管理材料及其制备方法和应用；CN202411541905.X；2024

   [9]   马儒军，刘利利，张鼎；一种兼具高强韧、抗疲劳和高热电性能的热电水凝胶及其制备方法和应用；CN202411910114.X；2024

   [10]   马儒军，郭佳琪，张鼎；一种具有延展性的n型MOF基高性能热电泡沫及其制备方法和应用；CN202411393615.5；2024

   [11]  马儒军，刘利利，张鼎；一种高力学强度和高热电性能水凝胶的制备方法及应用；CN202310602557.1；2023

3. 
   
4. 中国专利（授权）:
5. 
   
6. 10. 中国发明专利：一种基于高弹可压缩石墨烯/有机复合泡沫的热电器件及其制备方法[ZH]
   申请号:202510147846.6；申请日：2025.02.11; 授权公告号:CN119604178 B；授权公告日：2025.05.28；专利号: ZL 202510147846.6
   申请（专利权）人:[天津]；南开大学；发明(设计)人:马儒军；方彦杰；张鼎
7. 9. 中国发明专利：一种基于高弹可压缩石墨烯/有机复合泡沫的热电器件及其制备方法[ZH]
   申请号:202111280317.1；申请日：2021.11.01; 授权公告号:CN114005928 B；授权公告日：2025.01.14；专利号: ZL 2021 1 1280317.1
   申请（专利权）人:[天津]；南开大学；发明(设计)人:马儒军；张鼎；茆寅
8. 8. 中国发明专利：一种双模式热管理器件及其制备方法[ZH]
9. 申请号:202111540213.X；申请日：2021.12.16; 授权公告号:CN114161788B；授权公告日：2024.02.9；专利号: ZL 2021 1 1540213.X
   
10. 申请（专利权）人:[天津]；南开大学；发明(设计)人:马儒军；张权；吕艺文
11. 7. 中国发明专利：一种低于室温的柔性彩色辐射制冷器件及其制备方法[ZH]
12. 申请号:202210558925.2；申请日：2022.05.21; 授权公告号:CN114801378B；授权公告日：2023.10.20；专利号：ZL 2022 1 0558925.2
    
13. 申请（专利权）人:[天津]；南开大学；发明(设计)人:马儒军；俞世雄；张权
14. 6. 中国发明专利：一种基于离子传导的高性能热电水凝胶的制备方法及应用[ZH]
15. 申请号:202111280358.0；申请日：2021.11.01; 授权公告号:CN113881068B；授权公告日：2022.09.09；专利号：ZL 2021 1 1280358.0
16. 申请（专利权）人:[天津]；南开大学；发明(设计)人:马儒军；张鼎；茆寅
    5. 中国发明专利：一种基于电卡效应的毛细管制冷器件的制备方法[ZH]
17. 申请号:202111231178.3；申请日：2021.10.22; 授权公告号:CN113959112B；授权公告日：2022.09.30；专利号：ZL 2021 1 1231178.3
18. 申请（专利权）人:[天津]；南开大学；发明(设计)人:马儒军；崔恒；张权
    4.  中国发明专利：可拉伸辐射冷却胶带及其制备方法和应用[ZH]
19. 申请号:202110262645.2；申请日：2021.03.10; 授权公告号:CN113025219B；授权公告日：2022.08.12；专利号：ZL 2021 1 0262645.2
20. 申请（专利权）人:[天津]；南开大学；发明(设计)人:马儒军；张权
21. 3. 中国发明专利：一种可拉伸碳纳米管/有机复合热电纤维及其制备方法及应用[ZH]
22. 申请号:202011297203.3；申请日：2020.11.19; 授权公告号:CN112410927B；授权公告日：2022.06.14；专利号：ZL 2020 1 1297203.3
23. 申请（专利权）人:[天津]；南开大学；发明(设计)人:马儒军；张春阳；张权
24. 2. 中国发明专利：一种基于形状记忆效应的温控自粘性导电复合材料及其制备方法及应用[ZH]
25. 申请号:202011421956.0 ；申请日：2020.12.08; 授权公告号:CN112538327B ；授权公告日：2022.04.12；专利号：ZL 2020 1 1421956.0
26. 申请（专利权）人:[天津]；南开大学；发明(设计)人:马儒军；王孟言；张权

1. 1.  中国发明专利：一种静电驱动的基于电卡效应的双层固态制冷器件及其制备方法[ZH]
2. 申请号：202011421977.2；申请日期：2020.12.08；授权公告号：CN112524838B；授权公告日：2022.01.25；专利号：ZL 2020 1 1421977.2
3. 申请（专利权）人：[天津]；南开大学；发明(设计)人:马儒军；薄轶文；张权
4. 
   
5. 外国专利：
6. 3. 美国发明专利：ELECTROSTATICALLYACTUATED DEVICE
7. 申请号: 17 / 040,635；申请日：2020.09.23; 公开(公告)号: US2021/0025626 A1 ；公开(公告)日: 2021.01.28
8. 申请（专利权）人: The Regents of the University of California, Oakland , CA ( US)；发明(设计)人:QibingPei, Rujun Ma, Ziyang Zhang
9. 2. 美国发明专利：ELECTROCALORICCOOLING WITH ELECTROSTATIC ACTUATION
10. 申请号: 16/610,838；申请日：2018.05.07; 公开(公告)号: US2021/0071917A1 ；公开(公告)日: 2021.03.11
11. 申请（专利权）人: The Regents of the University of California, Oakland , CA ( US)；发明(设计)人: Qibing Pei, Rujun Ma, Ziyang Zhang, Roy Kornbluh,Palo Alto, David Huber
12. 1. 美国发明专利：AQUEOUSCOMPOSITIONS , METHODS OF PRODUCING CONDUCTIVE THIN FILMS USING THE SAME ,CONDUCTIVE THIN FILMS PRODUCED THEREBY , AND ELECTRONIC DEVICES INCLUDING THE SAME
13. 申请号: 14/836, 146；申请日：2015.08.26; 公开(公告)号: US 9, 969 , 893 B2；公开(公告)日:2018.05.15
14. 申请（专利权）人: SAMSUNG ELECTRONICS CO., LTD., Suwon-si,Gyeonggi-do (KR); Research & Business Foundation SUNGKYUNKWAN UNIVERSITY,Suwon-si, Gyeonggi-do ( KR )；发明(设计)人: KwangHee Kim, Daejin Yang, Jong Wook Roh, Rujun Ma, Hyeon Cheol Park, Seung - HyunBaik, Jae - Young Choi