一、学习和工作经历
2010.09-2015.06 华南理工大学 有机化学 硕博连读
2015.07-2017.11 微宏动力系统(湖州)有限公司 电解液开发部经理
2018.03-2019.06 宁波维科电池有限公司 材料体系项目经理
2019.07-至今 湖州师范学院 理学院 教师 副教授
二、通讯方式
办公室:1-303
个人邮箱:zangxufeng@zjhu.edu.cn
三、研究方向
锂离子电池正极、负极和电解液材料
锂金属电池电解液
锂离子电池设计与制备
锂离子电池失效分析
钠离子电池电解液
四、基金项目
1.具有复合结构的多功能型电解液添加剂及其锂离子电池性能的研究,浙江省自然科学基金探索项目,2021.01-2023.12,主持
2.硫磷酸酯类添加剂对正极/电解液界面膜的调控和机理研究,湖州市自然科学资金项目,2023.01-2025.12,主持
3.5V长寿命型镍锰/石墨软包电池电解质开发,苏州清陶新能源科技有限公司,2023.11−2024.05,主持
4.退役动力锂离子电池电解液锂盐回收方法建立,宁波行殊新能源科技有限公司,2021.07-2024.07,主持
5.碳化硅微粉表面改性技术的研发,浙江子健新型材料有限公司,2022.03-2023.02,主持
6.180吨钢包冲击区用铝镁碳砖及其制备工艺研究,浙江父子岭特种耐火有限公司,2022.01-2022.12,主持
7.长寿命VOD精炼钢包熔池用铝镁碳砖及其制备工艺研究,浙江父子岭特种耐火有限公司,2022.01-2022.12,主持
8.髙熵钛基纳米负极材料用于超长寿命高容量快充型锂电池的研究与应用,湖州永兴新能源有限公司,2021.07-2023.12,主持
9.锂离子电池电解液专利池的建立,宁波梅山保税港区锂泰企业管理合伙企业(有限合伙),2021.05-2024.04,主持
10.低浴比高效短流程增白染色工艺研发,浙江弘晨印染科技股份有限公司,2025.05−2025.12,主持
五、主要论文
1.Zang, Xu-Feng (通讯). Propyl propionate enabling stable operation of 4.55 V LiCoO2/graphite pouch cells at various temperatures via solvation and interface modulation, Chemical Engineering Journal, 2026, 536, 175767 (一区Top, IF=13.5).
2.Zang, Xu-Feng (通讯). Engineering interfacial chemistry and solvation structure via a novel ionic additive for ⁓5 V-class LiNi0.5Mn1.5O4 batteries, Journal of Colloid and Interface Science, 2026, 707, 139742 (一区Top, IF=8.9).
3.Zang, Xu-Feng (通讯). Unveiling the effect of cycle time and ambient temperature on the failure mechanisms of commercial LiCoO2/artificial graphite pouch cells, Sustainable Materials and Technologies, 2024, 42, e01170 (二区, IF=9.8).
4.Zang, Xu-Feng (通讯). Mechanisms for different cyclabilities of commercial LiCoO2/artificial graphite pouch cells at 10, 0, and 25 ℃, Particuology, 2024, 95, 145 (二区, IF=4.1).
5.Zang, Xu-Feng (1/6,通讯). Effects of different elements based electrolyte additives on the performance and interfacial chemistry of high-voltage LiCoO2/artificial graphite pouch cell, Journal of Power Sources, 2023, 580, 233447 (二区, IF=8.4).
6.Zang, Xu-Feng (通讯). Depth-dependent understanding of the degradation mechanisms for typical LiNi0.5Co0.2Mn0.3O2/artificial graphite lithium-ion batteries upon high-temperature storage, Journal of Alloys and Compounds, 2023, 947, 169662 (二区, IF=5.9).
7.Zang, Xu-Feng (1/7,通讯). Revealing the correlation between structural evolution and long-term cyclability of the LiNi0.5Co0.2Mn0.3O2/artificial graphite pouch cells at various rates, Particuology, 2023, 81, 162-173 (二区, IF=4.1)
8.Zang, Xu-Feng (通讯). Effect of operation voltage on the practical performance of high-energydensity LiCoO2/artificial graphite pouch cells at various temperatures, Journal of Alloys and Compounds, 2022, 911, 164970 (二区, IF=5.9).
9.Zang, Xu-Feng (1/5,通讯). The performances and degradation mechanisms of a commercial artificial graphite/LiNi0.5Co0.2Mn0.3O2 pouch cell at different cutoff voltages and temperatures, Journal of Alloys and Compounds, 2021,872, 159678 (二区, IF=5.9).
10.Zang, Xu-Feng (1/6,通讯). The role of the π-bridge length in the performance of diketopyrrolopyrrole-based organic dyes for dye-sensitized solar cells, Synthetic Metals, 2021, 281, 116916 (三区,IF=3.9).
11.Zang, Xu-Feng (1/7,通讯). Simultaneous Interphase Optimizations on the Large-Area Anode and Cathode of High-Energy-Density Lithium-Ion Pouch Cells by a Multiple Additives Strategy, ACS Applied materials & Interfaces, 2020, 12, 46084-46094 (二区Top, IF=8.5).
六、授权发明专利
1.一种非水电解液用氨基甲酸酯化合物及其应用,ZL202210205874.5,2023.11,第一.
2.一种磷酸酯及其制备方法和应用,ZL202110408291.8,2022.09,第一.
3.一种非水电解液用含醚基的双碳酸酯化合物、包含其的非水电解液及二次电池,ZL202110398537.8,2022.04,第一.
4.一种硫磷酸酯化合物、包含其的非水锂离子电池电解液及锂离子电池,ZL202010824104.X, 2023.08, 第一.
5.一种磷酸酯化合物、合成方法及其非水电解液, ZL202010356163.9, 2024.01, 第一.
6.一种锂离子二次电池,ZL201710365119.2,2022.03,第一.
7.一种非水电解液及二次电池,ZL201710480265.X, 2021.09,第一.
8.一种锂离子二次电池, ZL202210134275.9, 2022.05, 第一.
9.一种次膦酸酯的制备方法、次膦酸酯及非水电解液,ZL201610946254.1,2022.09,第一.
10.一种具有多腈类化合物的非水电解液及锂离子电池,ZL202110449047.6,2022.09,第二.
