面向可再生能源高效利用对下一代高能量密度与高安全性电池的迫切需求,聚焦于固态电池关键材料与器件研究。针对固/固界面不稳定问题,提出了界面离子分布设计策略,通过固定阴离子、引入离子再分布界面层等方法,有效调控锂离子在界面处的均匀分布,进而发展了原位聚合电解质、复合锂负极等新型能源材料,构筑了安时级固态软包电池。相关成果在电化学储能领域得到推广,与多个国际、国内一流企业达成合作,共同推动固态锂电池技术的实用化进程。研究成果在Nature、Sci. Adv.、PNAS、JACS等期刊发表,总他引2.5万余次。现担任中国颗粒学会青年理事。曾指导学生获得清华大学特等奖学金、全国“挑战杯”特等奖等荣誉。曾获教育部自然科学奖一等奖等学术奖励,连续四年入选科睿唯安“全球高被引科学家”。
● 教育与工作经历
2011–2015 |
清华大学 |
材料学院 |
学士 |
2015–2020 |
清华大学 |
化学工程系 |
博士 |
2019 |
美国康奈尔大学 |
化学工程系 |
访学 |
2020–2022 |
清华大学 |
车辆与运载学院 |
博士后 |
2023–2025 |
清华大学 |
化学工程系 |
助理研究员 |
2025 至今 |
清华大学 |
化学工程系 |
副研究员 |
● 研究领域
能源材料化学;固态电化学;固态锂电池;固态电解质;金属锂负极
● 代表性论文、专利和著作
1. Huang X.-Y., Zhao C.-Z.*, Kong W.-J., et al. Tailoring polymer electrolyte solvation for 600 Wh kg⁻1 lithium batteries. Nature, 2025, 646, 343–350.
2. Sun S., Zhao C.-Z.*, Yuan H., Fu Z.-H., et al. Eliminating interfacial O-involving degradation in Li-rich Mn-based cathodes for all-solid-state lithium batteries. Science Advances, 2022, 8, eadd5189.
3. Kong W.-J., Zhao C.-Z.*, Shen L., et al. Bulk/Interfacial structure design of Li-rich Mn-based cathodes for all-solid-state lithium batteries. Journal of the American Chemical Society, 2024, 146, 28190–28200.
4. Wang Z.-Y., Zhao C.-Z.*, Yao N., et al. The regulation of solid electrolyte interphase on composite lithium anodes in solid-state batteries. Angewandte Chemie International Edition, 2024, 64, e202414524.
5. Wang Z.-X., Lu Y., Zhao C.-Z.*, et al. Suppressing Li voids in all-solid-state lithium metal batteries through Li diffusion regulation. Joule, 2024, 8, 2794–2810.
6. Sun S., Zhao C.-Z.*, Liu G.-Y., et al. Boosting anionic redox reactions of Li-rich cathodes through lattice oxygen and Li-ion kinetics modulation in working all-solid-state batteries. Advanced Materials, 2024, 37, 2414195.
7. Xue Z.-Q., Zhao C.-Z.*, Chen Y.-P., et al. Nitrogen-rich solvation structures enable long-cycle sodium metal batteries. Advanced Materials, 2025, 38, e17094.
8. Xu P., Gao Y.-C., Huang Y.-X., et al. Solvation regulation reinforces anion-derived inorganic-rich interphase for high-performance quasi-solid-state Li metal batteries. Advanced Materials, 2024, 36, 2409489.
9. Kong W.-J., Zhao C.-Z.*, Sun S., et al. From liquid to solid-state batteries: Li-rich Mn-based layered oxides as emerging cathodes with high energy density. Advanced Materials, 2023, 36, 2310738.
10. Liang B., Huang X.-Y., Tan S., et al. Discontinuous coordination boosting ion transport in solid polymer electrolytes. Energy & Environmental Science, 2026, DOI: 10.1039/D5EE05901A.
11. 一种用于锂电池的复合隔膜. ZL 201711450127.3(已转化)等
