王鹏飞，男，讲师，硕士生导师，工学博士

研究领域

1.水系锌离子电池

2.电极材料构筑

教授课程

1.能源化工节能原理与技术

2.新能源材料与技术

学术成果

1. Bao Q P, Sui B B, Wang P F*, et al. High-pressure deformation exposes zinc (002) crystal planes adapted for high-performance zinc anodes. Electrochimica Acta, 478, 2024, 143824.

2. Sui B B, Sha L, Wang P F*, et al. In situ zinc citrate on the surface of Zn anode improves the performance of aqueous zinc-ion batteries. Journal of Energy Storage, 82, 2024, 110550.高被引论文

3. Sha L, Sui B B, Wang P F*, et al. 3D network of zinc powder woven into fibre filaments for dendrite-free zinc battery anodes. Chemical Engineering Journal, 481, 2024, 148393.高被引论文

4. Du L L, Li Z, Wang P F*, et al. Polyoxometalate oxate solution: An electrolyte additive to sustainably improve the anodes electrode of aqueous Zn ion batteries. Chemical Engineering Journal, 501, 2024, 157743.

5. Bao Q P, Li Z, Wang P F*, et al. Highly stable planted MXene auxiliary layer for high-performance zinc anode deposition regulation. Chemical Engineering Journal, 496, 2024, 154345

6. Sui B B, Sha L, Wang P F*, et al. Polyoxometalate solution passivation enabling dendrite-free and high-performance zinc anodes in aqueous zinc-ion batteries. Journal of Colloid and Interface Science, 669, 2024, 886 - 895.

7. Sha L, Sui B B, Wang P F*, et al. Micro-cracking on the surface of zinc metal improves the cycle performance of aqueous zinc ion batteries. Journal of Energy Storage, 90, 2024, 111843.

8. Liu H, Li Z, Wang P F*, et al. Calcium alginate hydrogel coating comprehensively optimizes Zn deposition behavior of aqueous zinc-ion batteries anode. Industrial and Engineering Chemistry Research, 63, 2024, 13611–13622.

9. Li R, Xiang T, Wang P F*, et al. Regulation of the anode electrodeposition behavior of aqueous zinc ion batteries by an l-alanine-modified glass fiber separator. Industrial and Engineering Chemistry Research, 63, 2024, 16164–16173.

10. Sui B B, Sha L, Wang P F*, et al. Anode surface pretreatment to optimize electrochemical performance of aqueous zinc-ion batteries. Solid State Ionics, 405, 2024, 116453.

11. Liu H, Sui B B, Wang P F*, et al. In situ construction of hydrogel coatings on zinc foil surfaces to improve the stability of aqueous zinc-ion batteries. Solid State Ionics, 413, 2024, 116604.

12. Sha L, Sui B B, Wang P F*, et al. Direct construction of MXene 3D fibre whiskers on the surface of aqueous zinc anodes by electrostatic spinning. Solid State Ionics, 406, 2024, 116472.

13. Li R H, Sui B B, Wang P F*, et al. Modulation of zinc deposition behaviour by electrostatically spun PAN-ZnTFSI fibre layer on separator for aqueous zinc ion batteries. Journal of Alloys and Compounds, 997, 2024, 174899.

科研成果

1. 生物质基高载量锂硫电池电极制备及性能研究，辽宁省科技厅博士启动，项目主持人。

2. 基于氢气注入及钼蓝溶液添加的水系锌离子电池长效性研究，辽宁省教育厅青年项目，项目主持人。

3. 锌金属负极表面结构设计及性能研究，沈阳工业大学青年教师科研能力培育基金，项目主持人。

电子邮箱

wangpengfei@sut.edu.cn