基本情况

出生年月：1995年01月

最高学位：博士

办公地点：博达校区智能技术研发中心大楼A205。

主要研究方向：1.水系锌离子电池正极材料的设计及储能机理研究；2.水系锌离子电池负极界面优化及其稳定性研究。

联系方式: wangweiwei@xju.edu.cn；13201252151。

 

教育及工作经历

2024.04 - 至今  新疆大学，材料科学与工程学院，教师

2019.06 - 2023.12  中南大学，化学化工学院，博士

2016.09 - 2019.06  新疆大学，应用化学研究所，硕士

2012.09 - 2016.06  新疆大学，化学化工学院，学士

学术成果

    学术论文

1. Wei-Wei Wang, Rui Huang, Yu Tao, Peng He, Yu-Jian Bian, Rui-Ting Hu, Yan-Jie Liang*, Jun Yan*, Wen-Chao Zhang* Construction of a multifunctional Ti₃C₂T_xMXene/g-C₃N₄artificial protective layer for dendrite-free Zn-ion batteries, Rare Metals2024 (accept).

2. Weiwei Wang, Rui Huang, Peng, He, Ruiting Hu, Ling Ran, Yu Tao, Yani, Li, Jun Yan*, Construction of amorphous V₂O₅@Ti₃C₂T_xsynergistic heterostructure on 3D carbon cloth substrate by a self-assembled strategy towards high-performance aqueous Zn-ion batteries，Journal of Colloid and Interface Science 2024, 653, 472-481.

3. Weiwei, Wang, Ling, Ran, Ruiting, Hu, Chi, Zhang, Rui, Huang, Yani, Li, Yao, Ouyang and Jun, Yan*, Boosting the Zn-storage performance of VSe₂cathodes via an in situ electrochemical oxidation strategy, Journal of Alloys and Compounds2024,981,173692.

4. Weiwei Wang,Ruiting Hu, Chi Zhang, Yu Tao, Ling Ran, Yani Li, Yao Ouyang，Jun Yan*，A stepwise oxidation strategy for the synthesis of amorphous V₂O₅@V₂CT_xnanohybrid cathodes toward high-performance aqueous Zn-ion batteries . Journal of Materials ChemistryA, 2023, 11, 8224–8234.

5. Rui Huang,Weiwei Wang, Chi Zhang, Peng He, Yuyang Han, Nuo Chen, Jun Yan,A bi-component polyoxometalate-derivative cathode material showed impressive electrochemical performance for the aqueous zinc-ion batteries,Chinese Chemical Letters,2022, 333955-960.

6. Wang, Weiwei，Zhang, Chi，Chen, Zhengfan，Huang, Rui，Nie, Yanmei，Liu, Penggao，Liu, Kaiyu，Yan, Jun*，Calcium-intercalated birnessite MnO₂anchored on carbon nanotubes as high-performance cathodes for aqueous zinc-ion batteries, Dalton Transactions, 2022, 51,9477-9485.

7. Zhang, Li*，Wang, Weiwei，Xu, Guancheng，Song, Huijun，Yang, Lifan，Jia, Dianzeng，Facile synthesis of Co_xFe_1-xP microcubes derived from metal-organic frameworks for efficient oxygen evolution reaction, Journal of Colloid and Interface Science 2019, 554, 202-209.

8. Wang, Weiwei，Zhang, Li*，Xu, Guancheng，Song, Huijun，Yang, Lifan，Zhang, Chi，Xu, Jinling，Jia, Dianzeng*, Structure-Designed Synthesis of CoP Microcubes from Metal-Organic Frameworks with Enhanced Supercapacitor Properties, Inorganic Chemistry 2018, 57, 10287-10294.