个人信息
Personal Information
联系方式
Contact Information
个人简介
Personal Profile
2022.12-至今,西安建筑科技大学,冶金工程,讲师
2018.09-2022.01,北京科技大学,冶金工程,博士生
2016.09-2018.06,北京科技大学,冶金工程,硕士生
2012.09-2016.06,烟台大学,材料科学与工程,本科生
1. 铝-碲电池正极/隔膜协同设计及构效关系研究,国家自然科学青年基金,2025.01-2027.12 ,主持,在研
2. 铝链产业发展前景研究,企业委托项目,2023.04-2024.04,主持,已结题
3. 5Ah 铝-碳二次电池开发,企业委托项目,2025.04-2028.03,主持,在研
4. 超声协同过硫酸钠强化浸出低冰镍的基础研究,陕西省面上项目,2025.01-2026.12,参与,在研
5. 碱性电解槽电极材料界面特性与水分解反应性能优化的研究,陕西省科技计划项目合作项目,2025.01-2027.12,参与,在研
6. 锑元素在造锍捕金工艺过程中的分配及脱除技术研究,企业委托项目,2023.11-2025.10,参与,在研
[1] Xuefeng Zhang, Yun Tong, Jialiang An, Fan Cheng, Zhuang Wu, Yihan Xue, Zheng Huang, Zhao Fang*, Shuqiang Jiao*. The Foundations, Design Strategies, and Further Considerations for high energy Al-S Batteries. Electrochemical Energy Reviews, Accepted, (IF=36.3).
[2] Linbo Li#, Yihan Xue#, Jialiang An*, Kenan Zhong, Fan Cheng, Zhuang Wu, Yun Tong, Xuefeng Zhang*, Zhao Fang*. Customizing copper current collector with a lithium-philic transmission channel enables dendrite-free Li metal anode. Journal of Power Sources, 2025, 644, 237151. (IF=8.1)
[3] Zhuang Wu, Xuefeng Zhang*, Fan Cheng, Yun Tong, Yihan Xue, Jialiang An, Zhao Fang*. An efficient multidimensional synergistic regulation strategy to boost nickel-rich ternary cathodes for Li-ion batteries. Journal of Electroanalytical Chemistry, 2025, 978, 118901. (IF=4.1).
[4] Fan Cheng, Xuefeng Zhang*, Shuai Wang*, Jialiang An, Yun Tong, Xueyang Hou, Haofei Du, Yifan Liu, Zhuang Wu, Yihan Xue, Zhao Fang*. Weakly solvating nonaqueous electrolyte enables Zn anode with long-term stability and ultra-low overpotential. Energy Storage Materials, 2025, 74, 103933. (IF=20.2).
[5] Xuefeng Zhang, Yifan Liu, Shuai Wang, Jingxiu Wang, Fan Cheng, Yun Tong, Lei Wei, Zhao Fang, Jianfeng Mao. Fundamentals and Design Strategies of Electrolytes for High-Temperature Zinc-Ion Batteries. Energy Storage Materials, 2024, 103471. (IF=20.2).
[6] Zhao Fang, Lang Yan, Zhuang Wu, Xuefeng Zhang*. A short process and low‑cost preparation of single crystal LiNi0.6Co0.2Mn0.2O2 cathode for lithium‑ion batteries. Ionics, 2024, 1-9. (IF=2.4).
[7] Linbo Li, Miao Ruan, Donghua Tian, Xuefeng Zhang*, Xueyang Hou, Kenan Zhong, Fan Cheng, Yun Tong, Zhao Fang*. Dual regulation mechanism of MoS2/MoO3 heterostructure for polysulfide and volume effect enables stable and durable lithium storage. Applied Surface Science, 2024, 646, 158949. (IF=6.3)
[8] Xueyang Hou, Haofei Du, Minghao Song, Miao Ruan, Fan Cheng, Fang Song, Jianchun Wu, Kexin Zhao, Zhao Fang*, Xuefeng Zhang*, Keyu Xie*. Electron transition enhanced in-situ co-reduction mechanism enabling high-capacity and stable lithium storage for MoO3-x anode. Composites Part B: Engineering, 2024, 271, 111174. (IF=12.7)
[9] Xuefeng Zhang, Yun Tong, Jialiang An*, Meng Yu, Fan Cheng, Xuecong Wang, Chuang Wang, Zheng Huang, Zhao Fang*, Shuqiang Jiao*. Local Electronic Regulation of Single-Atom Catalysts to Accelerate Aluminum-Sulfur Conversion Kinetics, Journal of Energy Storage, 2025, 129, 117320. (IF=8.9)
[10] Xuefeng Zhang, Wei-Li Song, Mingyong Wang*, Jiguo Tu, Handong Jiao, Shuqiang Jiao*. Photo-electrochemical enhanced mechanism enables a fast-charging and high-energy aqueous Al/MnO2 battery. Energy Storage Materials, 2022, 45, 586-594. (IF=20.2)
[11] Xuefeng Zhang, Wei-Li Song,* Jiguo Tu, Jingxiu Wang, Mingyong Wang,* and Shuqiang Jiao*. A Review of Integrated Systems Based on Perovskite Solar Cells and Energy Storage Units: Fundamental, Progresses, Challenges, and Perspectives. Advanced Science, 2021, 2100552. (IF=14.1)
[12] Xuefeng Zhang, Shuqiang Jiao,* Jiguo Tu, Wei-Li Song,* Xiang Xiao, Shijie Li, Mingyong Wang,* Haiping Lei, Donghua Tian, Haosen Chen* and Daining Fang. Rechargeable ultrahigh-capacity tellurium-aluminum batteries. Energy & Environmental Science, 2019, 12, 1918. (IF=30.8)
[13] Xuefeng Zhang, Mingyong Wang*, Jiguo Tu, Shuqiang Jiao*. Hierarchical N-doped porous carbon hosts for stabilizing tellurium in promoting Al-Te batteries. Journal of Energy Chemistry, 2021, 57, 378-385. (IF=14.9)
[14] Xuefeng Zhang, Jiguo Tu*, Mingyong Wang, Shuqiang Jiao*. A strategy for massively suppressing the shuttle effect in rechargeable Al-Te batteries. Inorganic Chemistry Frontiers. 2020, 7(20): 4000-9. (IF=6.4)
文件上传中...
西安建筑科技大学