机译:模拟电动汽车负载曲线循环的商用石墨/ LiFePO_4电池的低温老化机理-事后研究
Department of Chemistry and Materials Science, School of Chemical Engineering, Aalto University;
Department of Chemistry and Materials Science, School of Chemical Engineering, Aalto University;
Institute of Chemistry, University of Tartu;
Institute of Chemistry, University of Tartu;
MOBI Research Group, Vrije Universiteit Brussel;
Department of Chemistry and Materials Science, School of Chemical Engineering, Aalto University;
Lithium-ion battery; Battery electric vehicle load profile; Aging mechanism; Post-mortem analysis; Lithium plating; Graphite disordering;
机译:事后分析显示循环的商用LiFePO_4 //石墨圆柱电池的不均匀老化
机译:基于复合正极的商用锂离子电池对插电式混合动力汽车应用的评估。第二部分2 C循环老化下的降解机理
机译:电动汽车商用锂离子电池循环寿命的比较研究:老化机理识别
机译:圆柱形石墨/ Lifepo_4商用电池在高电流密度循环后验尸分析
机译:使用模拟驾驶周期评估商用车排放量和车队的车辆路线。
机译:酿酒酵母对草甘膦商业配方的抗性机制涉及DNA损伤修复细胞周期和细胞壁结构
机译:用模拟电动汽车载荷概况 - 后验证研究的商用石墨/ Lifepo4细胞的低温老化机制
机译:负载电压对模拟空间环境中热循环薄膜硫化亚铁硫化镉太阳电池的影响