Shi Peiran

Peiran Shi is a tenure-track Assistant Professor and Doctoral Supervisor in Tsinghua Shenzhen International Graduate School, Tsinghua University. His research focuses on solid-state battery materials and devices, composite solid-state electrolytes, solid–solid interface engineering and ion transport mechanisms. To date, he has published over 20 peer-reviewed papers in journals including Nature Nanotechnology, Energy & Environmental Science, Advanced Materials, Angewandte Chemie International Edition, Chemical Reviews, Journal of the American Ceramic Society and eScience, among which 10 are ESI Highly Cited Papers. He holds two authorized invention patents. He currently serves as the Principal Investigator of the Young Scientists Fund (Category C) of the National Natural Science Foundation of China and the General Project of the China Postdoctoral Science Foundation. He has received financial support from the National Postdoctoral Program for Innovative Talents (Level B). He was also selected for the Shuimu Scholar Program of Tsinghua University.

September 2018 – June 2022: Tsinghua University, Ph.D. in Materials Science and Engineering

September 2015 – June 2018: China Academy of Engineering Physics, M.S. in Nuclear Fuel Cycle and Materials

September 2011 – June 2015: Xi'an Jiaotong University, B.S. in Materials Science and Engineering

May 2026 – Present: Assistant Professor, Tsinghua Shenzhen International Graduate School, Tsinghua University

June 2024 – April 2026: Postdoctoral Fellow, Tsinghua Shenzhen International Graduate School, Tsinghua University

July 2022 – May 2024: Senior R&D Engineer, Huawei Technologies Co., Ltd. 

《Energy Materials and Devices》 Youth editorial board member (Sponsored by Tsinghua University)

Research focuses on solid-state battery materials and devices, specifically including: (1) fabrication of organic–inorganic composite solid-state electrolytes; (2) solid–solid interface engineering; (3) ion transport mechanisms in the electrolyte bulk and at interfaces; (4) development of high-dielectric composite solid-state electrolytes; and (5) power supply devices for implantable biomedical applications.

[1]  Peiran Shi^#, Jiabin Ma^#, Ming Liu^#, Shaoke Guo, Yanfei Huang, Shuwei Wang, Lihan Zhang, Likun Chen, Ke Yang, Xiaotong Liu, Yuhang Li, Xufei An, Danfeng Zhang, Xing Cheng, Qidong Li, Wei Lv, Guiming Zhong*, Yan-Bing He*and Feiyu Kang*. A dielectric electrolyte composite with high lithium-ion conductivity for high-voltage solid-state lithium metal batteries.Nature Nanotechnology.2023, 18, 602.(ESI Highly Cited Paper)

[2]  Hao Xu, Jinshuo Mi*, Jiabin Ma, Zhuo Han, Shun Lv, Likun Chen, Jiameng Zhang, Ke Yang, Boyu Li, Yuhang Li, Xufei An, Yuetao Ma, Shaoke Guo, Hai Su, Peiran Shi*, Ming Liu, Feiyu Kang and Yan-Bing He*.Mg²⁺initiated in-situ polymerization of dioxolane enabling stable interfaces in solid-state lithium metal batteries. Energy & Environmental Science,2025, 18, 4231. (ESI Highly Cited Paper)

[3]  Yuetao Ma, Likun Chen, Yuhang Li, Boyu Li, Xufei An, Xing Cheng, Hai Su, Ke Yang, Guanyou Xiao, Yang Zhao, Zhuo Han, Shaoke Guo, Jinshuo Mi, Peiran Shi*, Ming Liu, Yan-Bing He* and Feiyu Kang*.Mesoscale polymer regulation for fast-charging solid-state lithium metal batteries. Energy & Environmental Science,2025, 18, 3730.(ESI Highly Cited Paper)

[4]  Likun Chen^#, Peiran Shi^#, Tian Gu, Jinshuo Mi, Ke Yang, Liang Zhao, Jianshuai Lv, Ming Liu*, Yan-Bing He*and Feiyu Kang*. Strategies of constructing highly stable interfaces with low resistance in inorganic oxide-based solid‐state lithium batteries. eScience.2025, 5, 100277. (ESI Highly Cited Paper)

[5]  Peiran Shi^#, Guoxing Qu^#, Shikui Cai, Yijin Kang, Tao Fa*and Chen Xu*. An ultrafast synthesis method of LiNi_1/3Co_1/3Mn_1/3O₂cathodes by flash/field-assisted sintering.Journal of the American Ceramic Society. 2018, 101,4076.

[1] Kang, F.; Shi, P.; He, Y.; Ma, J.; Chen, L.; Liu, X.; Yang, K.; Lyu, J. Inorganic Nanowires, Solid-State Electrolyte Membrane, Solid-State Lithium Metal Battery, and Preparation Method. Chinese Patent No. ZL202210461933.5

[2] He, Y.; Huang, Y.; Gu, T.; Shi, P.; Kang, F. A Polyvinylidene Fluoride-Based Solid-State Electrolyte, Preparation Method Thereof, and Lithium-Ion Battery. Chinese Patent No. ZL202110390072

2024: Shuimu Scholar Program, Tsinghua University

2018: Outstanding Graduate of Beijing