2023年博士毕业于中国科学院大学-中国科学院物理研究所(导师:李泓研究员、吴凡特聘研究员),2018年本科毕业于厦门大学(导师:陈松岩教授)。硕博期间,在李泓研究员和吴凡特聘研究员的指导下,开展硫化物固态电解质及全固态电池的研究工作,并取得了丰硕的科研成果,以合作作者身份发表研究类论文24篇,其中以第一作者身份发表高影响力国际期刊论文9篇;合作申请PCT国际专利1项,中国发明专利10项(已授权6项)。
卢普顺
- 职务:博士后
- 导师:孙学良
- 联系电话:18805928086
- 联系邮箱:plu@eitech.edu.cn
背景介绍
研究领域
研究兴趣包括硫化物固态电解质空气稳定性、硫化物固态电解质设计合成、全固态电池低温性能。
教育背景
- 2018-2023:博士,材料物理与化学,中国科学院大学(中国科学院物理研究所)
- 2014-2018:学士,微电子科学与工程,厦门大学
工作经历
- 2023.07-2025.07:宁波东方理工大学(暂名),工学部,博士后研究员
获奖情况及荣誉
2020年,中国科学院物理研究所所长奖学金表彰奖
2022年,中国科学院物理研究所所长奖学金表彰奖
2020-2021年,中国科学院大学三好学生
2021年,“Superior All‐Solid‐State Batteries Enabled by a Gas‐Phase‐Synthesized Sulfide Electrolyte with Ultrahigh Moisture Stability and Ionic Conductivity”入选最受能源学人用户关注的研究工作TOP20
代表性论著
总体情况
2021至2024年,已合作发表24篇期刊论文,其中以第一作者身份发表9篇期刊论文,总被引频次699次,H因子11。合作申请PCT国际专利1项,中国发明专利10项(已授权6项)。
论著信息及引用数据
Google Scholar:https://scholar.google.com/citations?user=chAi7l4AAAAJ&hl=zh-CN&oi=sra
Web of Knowledge:
10篇代表作(*表示通讯作者,#表示共同第一作者)
1.Pushun Lu, Yu Xia, Guochen Sun, Dengxu Wu, Siyuan Wu, Wenlin Yan, Xiang Zhu, Jiaze Lu, Quanhai Niu, Shaochen Shi, Zhengju Sha, Liquan Chen, Hong Li*, Fan Wu*. Realizing Long-cycling and High-rate All-solid-state Lithium-based Batteries via Sulfide Superionic Conductors Doping Strategy. Nature Communications (IF=16.6), 2023, 14(1): 4077.
2.Pushun Lu, Zhimin Zhou, Zuxiang Xiao, Jiaze Lu, Jiaxu Zhang, Guantai Hu, Wenlin Yan, Shengjie Xia, Shutao Zhang, Ziqing Wang, Hong Li, Changhong Wang*, Fan Wu*, Xueliang Sun*. Materials and Chemistry Design for Low-Temperature All-Solid-State Batteries. Joule (IF=39.8), 2024, 3, 1-8.
3.Pushun Lu, Lilu Liu, Shuo Wang, Jieru Xu, Jian Peng, Wenlin Yan, Qiuchen Wang, Hong Li, Liquan Chen, Fan Wu*. Superior All‐Solid‐State Batteries Enabled by a Gas‐Phase‐Synthesized Sulfide Electrolyte with Ultrahigh Moisture Stability and Ionic Conductivity. Advanced Materials (IF=29.4), 2021, 33(32): 2100921.
4.Pushun Lu, Yu Xia, Yuli Huang, Zhendong Li, Xue Wang, Yujing Wu, Guochen Sun, Shaochen Shi, Zhengju Sha, Liquan Chen, Hong Li, Fan Wu*. Wide-temperature, Long-cycling, and High-loading Pyrite All-solid-state Batteries Enabled by Argyrodite Thioarsenate Superionic Conductor. Advanced Functional Materials (IF=19.0), 2023, 33(8): 2211211.
5.Pushun Lu, Dengxu Wu, Tenghuan Ma, Wenlin Yan, Xiang Zhu, Fuliang Guo, Jiaze Lu, Jian Peng, Liquan Chen, Hong Li, Fan Wu*. Rate-Limiting Mechanism of All-Solid-State Battery Unravelled by Low-Temperature Test-Analysis Flow. Energy Storage Materials (IF=20.4), 2024, 67 103316.
6.Pushun Lu#, Sheng Gong#, Chuhong Wang, Zhiao Yu, Yuli Huang, Tenghuan Ma, Jingchen Lian, Zhiwen Jiang, Liquan Chen, Hong Li, Fan Wu*. Superior Low-Temperature All-Solid-State Battery Enabled by High-Ionic-Conductivity and Low-Energy-Barrier Interface. ACS Nano (IF=17.1), 2024, 18, 7334−7345.
7.Pushun Lu, Sheng Gong, Fuliang Guo, Xiang Zhu, Yuli Huang, Yue Wang, Weitao He, Ming Yang, Liquan Chen, Hong Li, Fan Wu*. Amorphous Bimetallic Polysulfide for All-Solid-State Batteries with Superior Capacity and Low-Temperature Tolerance. Nano Energy (IF=17.6), 2023, 118, 109029.
8.Pushun Lu#, Dengxu Wu#, Liquan Chen, Hong Li*, Fan Wu*. Air Stability of Solid‑State Sulfide Batteries and Electrolytes. Electrochemical Energy Reviews (IF=31.3), 2022, 5, 3.
9. Rui Li#,Pushun Lu#, Xinmiao Liang#, Liwei Liu, Maxim Avdeev, Zhi Deng, Shuai Li, Kaiqi Xu, Jiwen Feng, Rui Si, Fan Wu*, Zhizhen Zhang*, and Yong-Sheng Hu*. Superionic Conductivity Invoked by Enhanced Correlation Migration in Lithium Halides Solid Electrolytes. ACS Energy Lett. (IF=22.0) 2024, 9,1043−1052.