机译:锂金属箔表面改性:改善锂金属电池循环性能的有效方法
MEET Battery Research Center Institute of Physical Chemistry University of Muenster Corrensstrasse 46 48149 Muenster Germany;
MEET Battery Research Center Institute of Physical Chemistry University of Muenster Corrensstrasse 46 48149 Muenster Germany;
MEET Battery Research Center Institute of Physical Chemistry University of Muenster Corrensstrasse 46 48149 Muenster Germany;
MEET Battery Research Center Institute of Physical Chemistry University of Muenster Corrensstrasse 46 48149 Muenster Germany;
MEET Battery Research Center Institute of Physical Chemistry University of Muenster Corrensstrasse 46 48149 Muenster Germany;
Helmholtz-Institute Muenster (HI MS) IEK-12 Forschungszentrum Juelich GmbH Correnstrasse 46 48149 Muenster Germany;
MEET Battery Research Center Institute of Physical Chemistry University of Muenster Corrensstrasse 46 48149 Muenster Germany;
MEET Battery Research Center Institute of Physical Chemistry University of Muenster Corrensstrasse 46 48149 Muenster Germany;
interfacial resistance; lithium anodes; lithium dissolution- deposition; native surface films; roll-press technique;
机译:锂金属箔表面改性:改善锂金属电池循环性能的有效方法
机译:Li1.3Al0.3Ti1.7(PO4)(3)陶瓷电解质的表面改性通过Al2O3掺杂的ZnO涂层,使枝晶无固态锂金属电池
机译:通过MOS2涂层改善瘦电解质条件下的锂金属电池性能
机译:锂金属电池中锂金属的表面改性
机译:用于高性能和安全锂离子和锂金属电池的电极涂覆的无机分离器
机译:改善的高温性能尖晶石型LiNi0.5Mn1.5O4阴极表面修饰法制备高压锂离子电池柔性导电纳米层
机译:用于改善Li金属电池循环寿命的锂箔表面预处理