...
机译:用固体聚合物电解质改进机械改性锂电极的界面
Univ Munster Inst Phys Chem MEET Battery Res Ctr Corrensstr 46 D-48149 Munster Germany;
Univ Munster Inst Phys Chem MEET Battery Res Ctr Corrensstr 46 D-48149 Munster Germany;
Univ Munster Inst Inorgan &
Analyt Chem Corrensstr 28-30 D-48149 Munster Germany;
Univ Munster Inst Phys Chem MEET Battery Res Ctr Corrensstr 46 D-48149 Munster Germany;
Univ Munster Inst Phys Chem MEET Battery Res Ctr Corrensstr 46 D-48149 Munster Germany;
Univ Munster Inst Inorgan &
Analyt Chem Corrensstr 28-30 D-48149 Munster Germany;
Univ Munster Inst Phys Chem MEET Battery Res Ctr Corrensstr 46 D-48149 Munster Germany;
Univ Munster Inst Phys Chem MEET Battery Res Ctr Corrensstr 46 D-48149 Munster Germany;
lithium metal; mechanical modifications; polyphosphazenes; solid polymer electrolytes; solid-state batteries;
机译:用固体聚合物电解质改进机械改性锂电极的界面
机译:混合固体聚合物电解质基锂金属电池的电极-电解质界面和电池性能的相关性
机译:准固态锂离子电池固态聚合物电解质和3D阵列电极之间紧密界面的智能构造
机译:固体聚合物电解质和改性电极是新一代高能量锂电池安全性,宽的工作温度,高能量和低价格的基础
机译:固体聚合物锂电池中的电极-电解质界面
机译:具有机械强度增强的各向同性界面的平行双组分TPU / PI膜用作锂离子电池的聚合物电解质
机译:锂聚合物电池中锂电极与电解质的固/固界面研究进展