Basic Information
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Name: Xiaoli Zhao Title: Associate Professor Email: zxl36@tongji.edu.cn Office Location: Tongxin Building 205, Jiading Campus, Tongji University |
Personal Biography
Xiaoli Zhao, Master's Supervisor, received her Ph.D. in Polymer Science from Zhejiang University in 2016. Her research focuses on electrochemical energy technologies, with notable achievements in aqueous energy storage, sub-nanometer channel transport, and metal batteries. To date, she has published over 30 papers as the first or corresponding author in prestigious international journals, including Angewandte Chemie International Edition, Advanced Materials, Nano Energy, and ACS Nano. She has also served as the principal investigator for research projects supported by the National Natural Science Foundation of China and the Shanghai Science and Technology Commission's Sailing Program.
Research Interests
Electrochemical Energy Technologies (Batteries, Synthesis)
Sub-Nanometer Channel Transport
学习工作经历
时间 |
工作经历 |
2006-2010 |
Bachelor’s Degree, Shanghai Jiao Tong University |
2010-2016 |
Ph.D., Zhejiang University |
2016-2018 |
Postdoctoral Fellow, Fudan University |
2018-2024 |
Assistant Professor, Tongji University |
2024-present |
Associate Professor, Tongji University |
Academic Appointments
Expert Reviewer, National Natural Science Foundation of China (NSFC)
Thesis Evaluation Expert, Degree Center of the Ministry of Education
Awards and Honors
2019: Shanghai Science and Technology Commission Sailing Program
Teaching Experience
Polymer Physics (In English)
Polymer Materials Molding Processes and Equipment (In English)
Fundamental Experiments in Materials Science 1
Fundamental Experiments in Materials Science 2
Energy Materials
Recent Representative Publications
1. Electrochemically inducing V2O5·nH2O nanoarrays vertically growth on VSx microrods for highly stable zinc ion battery cathode, Nano Energy, 2024, 120, 109152
2. Voltage-Mediated Water Dynamics Enables On-Demand Transport of Sugar Molecules in Two-Dimensional Channels, Angewandte Chemie International Edition, 2023, 62, e202309024
3. Highly Crystalline Graphene Foams Based on Capillarity and Deintercalation Sewing, Chemistry of Materials, 2022, 34, 7424-7433.
4. Exploiting Interfacial Cl-/Cl0 Redox for a 1.8 V Voltage Plateau Aqueous Electrochemical Capacitor. ACS Energy Letters, 2021, 6, 1134-1140.
5. Three dimensional frameworks of super ionic conductor for thermodynamically and dynamically favorable sodium metal anode, Nano Energy, 2020, 70, 104479.
Recruitment Information:
We welcome motivated and ambitious master's degree candidates to apply to our research group.
