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1. 辐射冷却陶瓷涂层
围绕陶瓷涂层辐射冷却应用，开展涂层材料的微观结构、光学（红外发射率、太阳光反射率）和热学（热导率、热稳定性）性能调控研究。
2. 辐射增强热管散热器
围绕热管散热器翅片表面高发射率涂层的设计、制备开展研究，通过多物理场耦合模型揭示“热管蒸发段液气相变-冷凝段蒸汽扩散-翅片段辐射散热强化”的传热、传质规律，为新能源装备、轨道交通等领域的电力电子器件提供高效可靠的被动热管理解决方案。

1. 中科院理化所所长基金项目:“基于红外陶瓷的被动辐射冷却新技术”，项目负责人；
2. 国家重点研发计划：用于高功率IGBT热管理的石墨烯/六方氮化硼纳米片辐射冷却材料研发，项目负责人；
3. 院地纵向项目:“用于热管系统的辐射散热涂层技术”，项目负责人；
4. 院地纵向项目:“轨道交通用轻质电磁屏蔽涂料应用研究”，项目负责人；
5. 院地纵向项目:“油料装备腐蚀防护控制设计”，项目负责人。

1. Yue Ren, Xiaohu Wu, Wenjie Luo, Zhennan He, Ning Qin, Pei Zhao, Hui Yang,* Linli Xu,* Yong Li*. Radiation-Enhanced Heat Pipe Radiator via Surface-Engineered Hierarchical Resin-Free Coating for Eﬀective Passive Heat Dissipation of High-Power Electronic Modules, Adv. Funct. Mater, 2025, 2505039;
2. Ren, Yue; Luo, Wenjie; He, Zhennan; Qin, Ning; Meng, Qing; Qiu, Minghui; Li, Jiangtao; Yang, Hui*; Xu, Linli*; Li, Yong*; Development and performance study of a radiation-enhanced heat pipe radiator for cooling high-power IGBT modules, Appl. Therm. Eng., 2025, 262: 1-14;
3. Meng, Weihao; Kragt, Augustinus J. J.; Hu, Xiaowen; van der Burgt, Julia S.; Schenning, Albertus P. H. J.; Yue, Yuchen; Zhou, Guofu; Li, Laifeng; Wei, Ping; Zhao, Wenyu; Li, Yong*; Wang, Jingxia*; Jiang, Lei; Photochromic Thermoelectric Smart Window for Season-Adaptive Solar Heat and Daylight Management, Adv. Funct. Mater., 2024, 34(38);
4. Tang, Weiming; Zhan, Yaohui; Yang, Jingrun; Meng, Xue; Zhu, Xingyue; Li, Yong; Lin*, Tianyi; Jiang, Lei; Zhao, Ziguang*; Wang, Shutao*; Cascaded Heteroporous Nanocomposites for Thermo-Adaptive Passive Radiation Cooling, Adv.Mater, 2024, 36(36);
5. Yong Li; Yingnan Song; Hongye Zu; Feilong Zhang; Hui Yang; Wei Dai; Jingxin Meng; Lei Jiang. Bioinspired radiative cooling coating with high emittance and robust self‐cleaning forsustainably efficient heat dissipation, Exploration, 2023, 20230085: 1-9.