桑君武,宁波东方理工大学(暂名)博士后,主要研究方向为全固态电池。
目前以第一作者身份在Adv. Funct. Mater.、Adv. Sci.等期刊发表SCI论文6篇。
桑君武
- 职务:博士后
- 导师:孙学良 教授、王长虹 教授
- 联系电话:13063487361
- 邮箱:jwsang@eitech.edu.cn
- 学术荣誉:
背景介绍
研究领域
(1) 全固态锂电池界面设计
(2) 硫化物固态电解质
(3) 新型硫/硒正极
(4) 新型锂/钠电池负极材料
(5) 原位表征技术及理论计算
教育背景
2021. 09 - 2025. 06:博士,化学工程,郑州大学
2018. 09 - 2021. 06:硕士,材料科学与工程,郑州大学
2014. 09 - 2018. 06:学士,材料科学与工程,合肥工业大学
工作经历
2025.07– 今:宁波东方理工大学
代表性论著
1. Junwu Sang, Xiangdan Zhang, Kangli Liu, et al. Effective coupling of amorphous selenium phosphide with high-conductivity graphene as resilient high-capacity anode for sodium-ion batteries.Advanced Functional Materials2023, 33, 2211640.
2.Junwu Sang, Kecheng Pan, Bin Tang, et al. One stone, three birds: an air and interface stable argyrodite solid electrolyte with multifunctional nanoshells.Advanced Science 2023, 10, 2304117.
3.Junwu Sang, Kangli Liu, Xiangdan Zhang, et al. Enabling high-performance sodium battery anodes by complete reduction of graphene oxide and cooperative in situ crystallization of ultrafine SnO₂ nanocrystals.Energy Environmental Materials2023, 6, e12431.
4.Junwu Sang, Bin Tang, Yong Qiu, et al. How does stacking pressure affect the performance of solid electrolytes and all-solid-state lithium metal batteries? Energy Environmental Materials 2024,7, e12670.
5.Junwu Sang, Bin Tang, Kecheng Pan, et al. Current status and enhancement strategies for all-solid-state lithium batteries.Accounts of Materials Research2023, 4, 472–483.
6.Junwu Sang, Yuran Yu, Zhuo Wang, Guosheng Shao. Theoretical formulation of Li3a+bNaXb (X= halogen) as a potential artificial solid electrolyte interphase (ASEI) to protect the Li anode.Physical Chemistry Chemical Physics 2020, 22, 12918-12928.
总体情况
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