Goujingren

Education Background:

• Sep. 2012 – Jun. 2016
   Bachelor’s Degree, School of Automotive and Mechanical Engineering, South China University of Technology

• Sep. 2016 – Jun. 2022
   Ph.D. (Direct-Entry Master-Ph.D.), School of Automotive and Mechanical Engineering, South China University of Technology

Work Experience:

• Jul. 2022 – May 2025
   Postdoctoral Assistant Researcher, Department of Chemical Engineering, Tsinghua University

• May 2025 – Present
   Assistant Professor (Probationary), School of Materials Science and Engineering, Beijing University of Chemical Technology

Research Directions:

Dr. Jingren Gou has long been engaged in the application of polymer materials in electrochemical energy storage (such as electrolytes and  binders for lithium batteries). He is dedicated to integrating Density Functional Theory, Molecular Dynamics simulation, and Finite Element Analysis to establish multiscale, multiphase, and multiphysics field models at battery interfaces.
Research Projects:

1. Postdoctoral General Program

2. National Natural Science Foundation of China - Youth Fund Project

Selected Research Achievements:

1. Jingren Gou, Zheng Zhang, Kaixuan Cui, Suqing Wang*,  Jiale Huang, Haihui Wang*, An Anisotropic Strategy for Developing  Polymer Electrolytes Endowing Lithium Metal Batteries with  Electrochemo-mechanically Stable Interface. Nature Communications, 2025 (16), 3626.

2. Jingren Gou, Zheng Zhang, Suqing Wang*, Jiale Huang,  Haihui Wang*, A Ultra-high Modulus Gel Electrolyte Reforming the Growing  Patterns of Lithium Dendrites for Interfacially Stable Lithium Metal  Batteries. Advanced Materials, 2024 (36), 2309677.

3. Jingren Gou, Wangyu Liu*, Aimin Tang, Lin Wu,  Interfacially Stable and High-safety Lithium Batteries Enabled by  Porosity Engineering Toward Cellulose Separators. Journal of Membrane Science, 2022 (659), 120807.

4. Jingren Gou, Wangyu Liu*, Aimin Tang, A Novel Method  to Prepare a Highly Porous Separator Based on Nanocellulose with  Multi-scale Pore Structures and Its Application for Rechargeable  Lithium-ion Batteries. Journal of Membrane Science.

5. Jingren Gou, Wangyu Liu*, Aimin Tang, To Improve the  Interfacial Compatibility of Cellulose-based Gel Polymer Electrolytes: a  Cellulose/PEGDA Double Network-based Gel Membrane Designed for  Lithium-ion Batteries. Applied Surface Science, 2021 (568), 150963.

6. Zheng Zhang, Wanqing Fan, Kaixuan Cui, Jingren Gou* (Co-corresponding author), Ying Huang*, Design of Ultrathin Asymmetric  Composite Electrolytes for Interfacial Stable Solid-state Lithium-metal  Batteries. ACS Nano, 2024 (27), 17890–17900.

7. Zheng Zhang, Jingren Gou(Co-first author), Kaixuan Cui, Suqing Wang*, Haihui Wang*, 12.6 μm-Thick Asymmetric Composite Electrolyte with  Superior Interfacial Stability for Solid-state Lithium-metal Batteries.  Nano-Micro Letters, 2024 (16).

8. Fan Wanqing, Gou Jingren(Co-first author), Huang Ying*, She  Kaihang, Yu Meng, Zhang Zheng*, Peapod-like Fiber Network: A Universal  Strategy for Composite Solid Electrolytes to Inhibit Lithium Dendrite Growth in Solid-State Lithium Metal Batteries. Nano Letters, 2024 (24), 9050–9057.