王彤

个人简介：

王彤，特聘副研究员，硕士生导师，上海市扬帆人才。2021年于复旦大学获材料物理与化学专业博士学位。研究方向包括能源光子学、辐射制冷超材料、智能窗等。近五年以第一/通讯作者在Nat. Commun.(2篇),Adv. Funct. Mater., Opto-Electron. Adv., Chem. Eng. J., Cell Rep.Phys. Sci., ACS photonics等期刊发表SCI论文20余篇，多篇入选ESI高被引和热点论文，单篇最高引用近700次；已授权及申请国内外发明专利10余项；承担国家自然科学基金青年项目和上海市启明星培育（扬帆专项），参与国家自然科学基金委员会重点项目研究。曾获上海·杨浦创业之星大赛“创业新锐奖”、全国超材料大会“优秀青年学者”等荣誉。指导研究生获国家奖学金、上海市优秀毕业生及多项国家级/省部级创新创业大赛一等奖等。指导本科生以第一作者发表多篇高水平SCI论文、获批多项市级大学生创新创业训练计划项目。

研究方向：

1) 能源光子学

2) 微纳辐射制冷超材料

3) 智能窗光热调控

近五年一作/通讯（含共同）代表性论文：

1) Wang, T., Wu, Y., Shi, L., Hu, X., Chen, M., Wu, L*. A structural polymer for highly efficient all-day passive radiative cooling.Nature Communications, 2021, 12(1), 365.

2) Tu HY., Wang, T*., Chen, M., Wu, L*. Isotope-driven hydrogelsmart windows for self-adaptive thermoregulation. Nature Communications, (2025).

3) Wang Z., Wang, T*., Zhu Q., Ding ZY., Gu M., Zhang YN*. Bioinspired design of thermally conductive radiative cooling structure for outdoor electronic devices. Advanced Functional Materials, 2501646, (2025).

4) Wang, T^#., Zhang, Y^#., Chen, M., Gu, M., Wu, L*. Scalable and waterborne titanium-dioxide-free thermochromic coatings for self-adaptive passive radiative cooling and heating. Cell Reports Physical Science, 2022, 3(3): 100782.

5) Wang, T^#., Zhang, S#., Zhu, Q., Zhang, J., Zhang, Y., Du, Y., Wu, L., Gu, M*., Zhang, Y*. A trilayer structure with surface binary microsphere array for radiative cooling and heating regulation. ACS Photonics, 11(7), 2815 (2024).

6) Wang, T^#., Wu, X#., Zhu, Q., Chen, Y., Zhang, S., Gu, M*., Zhang, Y*., A scalable and durable polydimethylsiloxane-coated nanoporous polyethylene textilefor daytime radiative cooling. Nanophotonics, 13(5): 601 (2024).

7) Wang, T., Tu, S., Chen, Y., Zhu, Q., Zhang, Y*., Mei, X., Chen, M., Gu, M.*, Wu, L*. Scalable and flexible porous hybrid film as a thermal insulating subambient radiative cooler for energy-saving buildings.National Science Open, 2023, 2(4), 20220063.

8) Zhang, Y., Wang, T*., Mei, X., Tu, H., Chen, M., & Wu, L*. Bioinspired design of a binary synergistic photonic structure for daytime radiative cooling. ACS Photonics, 11(5), 1960 (2024).

9) Mei, X., Wang, T*., Zhang, Y., Huang, T., Chen, M., Wu, L*. Scalable bilayer thin coatings with enhanced thermal dissipation for passive daytime radiative cooling. Chemical Engineering Journal, 153182 (2024).

10) Zhang, Y., Wang, T*., Mei, X., Chen, M., Wu, L.*, Ordered porous polymer films for highly efficient passive daytime radiative cooling. ACS Photonics, 10(9), 3124 (2023).

11) Mei, X., Wang, T*., Chen, M., Wu, L*. A self-adaptive film for passive radiative cooling and solar heating regulation. Journal of Materials Chemistry A, 10, 11092 (2022).

12) Zhang, S., Xia, G., Zhu, Q., Wang, Z., Feng, G., Gong, Y., Wang, T*. Adaptive Phase Change Microcapsules for Efficient Sustainable Cooling. ACS Applied Materials & Interfaces, 17, 8424 (2025).

13) Hu, D#., Chen, X#., Zhang, S., Wang, Z., Wang, T*., Zhang, Y*. Ultrawhite and ultrablack asymmetric coatings for radiative cooling and solar heating. Progress in Organic Coatings, 198, 108870 (2025).

14) Zhang, Y#*., Chen, Y#., Wang, T^#., Zhu, Q., Gu, M*. Ultrahigh performance passive radiative cooling by hybrid polar dielectric metasurface thermal emitters. Opto-Electronic Advances, 230194-1 (2024).

联系方式：

邮箱：wangtong@usst.edu.cn