一、科研项目:近期,限10项 [1]植入式三腔起搏器用锂电池SOX在线预测系统开发,210万。 [2]硫化物基固态电池热失控机理、建模与安全性分析,26.2972万。 [3]智能储罐监控电源系统的模块化设计与集成,55.28万。 [4]储罐附件VOCs源头治理技术开发,55.8万。 [5]基于高性能密封材料的动力电池模块热管理与安全性能优化研究,22.08万。 二、代表性论著: [1] Xie W, Zhang L. Experimental study on thermal runaway and venting gas explosion hazards in prismatic lithium-ion batteries at different states of charge[J]. Process Safety and Environmental Protection(IF=7.8), 2025, 198: 107118. [2] Xie W, Zhang L, Zhao X, et al. Analysis of thermal characteristics and energy efficiency of lithium-ion batteries under different charging conditions[J]. Thermal Science and Engineering Progress(IF=5.4), 2025, 61: 103577. [3] Xie W, Zhang Z, Gao X. Understanding the limitations of thick electrodes on the rate capability of high-energy density lithium-ion batteries[J]. Electrochimica Acta(IF=5.6), 2024, 493: 144396. [4] Xie W, Guo P, Gao X. Elucidating the rate limitation of lithium-ion batteries under different charging conditions through polarization analysis[J]. Journal of Energy Storage(IF=9.8), 2024, 82: 110554. [5] Xie W, Yang S. Charging optimization of lithium-ion batteries based on charge transfer limitation and mass transport limitation[J]. Journal of the Electrochemical Society(IF=3.3), 2023, 170(1): 010506. [6] Xie W, He R, Gao X, et al. Degradation identification of LiNi0.8Co0.1Mn0.1O2/graphite lithium-ion batteries under fast charging conditions[J]. Electrochimica Acta(IF=5.6), 2021, 392: 138979. [7] Xie W, Liu X, He R, et al. Challenges and opportunities toward fast-charging of lithium-ion batteries[J]. Journal of Energy Storage(IF=9.8), 2020, 32: 101837. [8] Zhang L, Zhang D, Xie W, et al. Comparative analysis of full-scale battery electric vehicle fire evolution under open and semi-enclosed conditions[J]. Process Safety and Environmental Protection(IF=7.8), 2025: 107679. 三、授权专利: [1]发明专利.一种发动机悬置:201910026293.3[P].2024-12-20. 四、荣誉奖励: |