- 学历/学位: 研究生学历/博士学位
- 研究方向:
高安全长寿命宽温域钠离子二次电池
- 邮箱: lwjiang@ipe.ac.cn
- 地址: 北京市海淀区中关村北二街1号
- 邮编: 100190
- 课题组网站:
简历介绍
蒋礼威,中国科学院过程工程研究所项目研究员,博士生导师。2020年,中科院物理所获博士学位,2020年至2025年,香港中文大学博士后。2025年,以海外高层次人才过程杰青入职中科院过程所绿色化工研究部。
研究方向为高安全长寿命宽温域钠离子二次电池,聚焦于电极材料和电解液材料的设计与开发。在Nature Energy(2篇)、Advanced Materials、Energy & Environmental Science、Journal of the American Chemical Society、ACS Energy Letters等国际知名期刊共计发表SCI论文25篇,授权中国发明专利4项,谷歌学术总引大于2800次,其中1篇Nature Energy(独立一作,引用>850次)入选基本科学指标数据库(ESI)Top 1%高被引论文。曾获中国科学院院长优秀奖、中国硅酸盐学会优秀博士论文奖、中国科学院物理研究所所长奖学金特优奖、第22届国际锂电大会最佳Poster奖、Nano Research Energy Top Papers Award等奖项。
代表论著
1. Jiang, L. W.; Lu, Y. X.*; Zhao, C. L.; Liu, L. L.; Zhang, J. N.; Zhang, Q.Q.; Shen, X.; Zhao, J. M.; Yu, X. Q.; Hu, Y.-S.*; Li, H., Huang, X. J.; Chen, L. Q. Building aqueous K-ion batteries for energy storage, Nature Energy 4, 495-503 (2019). (IF = 49.7) (引用数>850次)
2. Jiang, L. W.#; Han S.#.; Hu Y.-C.#; Yang, Y.; Lu, Y, X*; Lu, Y.-C.*; Zhao, J. M.*; Chen L. Q.; Hu, Y.-S.* Rational design of anti-freezing electrolytes for extremely low-temperature aqueous batteries. Nature Energy 9, 839–848 (2024). (IF = 49.7)
3. Jiang, L. W.; Liu, L.; Yue, J.; Zhang, Q. Q.; Zhou, A.; Suo, L. M.*; Li, H., Chen, L. Q. Borodin, O.*; Xu, K.; Hu, Y.-S.*. High-voltage aqueous Na-ion battery enabled by inert-cation-assisted water-in-salt electrolyte. Advanced Materials 32, 1904427 (2020). (IF = 27.4) (引用数>300次)
4. Jiang, L. W.; Hu, Y. C.; Ai, F.; Liang, Z. J.; Lu, Y.-C.*. Rational design of anti-freezing electrolyte concentrations via freeze concentration process. Energy & Environment Science 17, 2815-2824 (2024). (IF = 32.4)
5. Jiang, L. W. & Lu, Y.-C.*. Building a long-lifespan aqueous K-ion battery operating at −35 °C. ACS Energy Letters 9, 985-991 (2024). (IF =19.3)
6. Jiang, L. W.; Dong, D. J.; Lu, Y.-C.* Design strategies for low temperature aqueous electrolytes. Nano Research Energy 1: e9120003 (2022).
7. Jiang, L. W.; Lu, Y. X.*; Wang, Y. S.; Liu, L.-L.; Qi, X. G.; Zhao, C. L.; Chen, L. Q.; Hu, Y.-S.* A high-temperature beta-Phase NaMnO2 stabilized by Cu doping and its Na storage properties. Chinese Physics Letters 35, 048801 (2018).
8. Gong, Y.#; Zhang, J. N.#; Jiang, L. W.#; Shi, J. A.#; Zhang, Q.; Yang, Z.; Zhou, D.; Wang, J.; Yu, X.; Xiao, R. J.*; Hu, Y.-S.*; Gu, L.*; Li, H.*; Chen, L. Q. In situ atomic-scale observation of electrochemical delithiation induced structure evolution of LiCoO2 cathode in a working all-solid-state battery. Journal of the American Chemical Society 139, 4274-4277 (2017). (IF =16.3)
9. Hu, Y.-C.#*; Jiang, L. W.#; Activating Supercooled Electrolytes. Materials Futures 3, 047601 (2024). (IF =12.0)
10. Li, W. Q.#; Jiang, L. W.#; Zhang, Z.; Xu, C. L.; Zhou, L.; Dang, R. B.; Zhao, J. M.*; Hu, Y.-S. Tailoring monoclinic Na3V2(PO4)3-based cathode via bimetallic substitution for high-energy and long-lifespan Na-ion batteries, Materials Today Energy 45, 101678 (2024). (IF =9.2)
11. Zhang, X. S.#; Jiang, L. W.#; Xu, C. L.; Chen, Z.; Zhou, L.; Dang, R. B.; Zhao, J. M.*; Hu, Y.-S. Designing high-performance phosphate cathode toward Ah-level Na-ion batteries. Energy Storage Materials 72, 103764 (2024). (IF =18.9)