机译:将固体电解质劣化连接到硫代磷酸基复合阴极中的载流量朝向固态锂 - 硫电池
Justus Liebig Univ Giessen Inst Phys Chem Heinrich Buff Ring 17 D-35392 Giessen Germany|Justus Liebig Univ Giessen Ctr Mat Res ZfM Heinrich Buff Ring 16 D-35392 Giessen Germany|Kyushu Univ Grad Sch Engn Dept Appl Chem Nishi Ku 744 Motooka Fukuoka 8190395 Japan;
Justus Liebig Univ Giessen Inst Phys Chem Heinrich Buff Ring 17 D-35392 Giessen Germany|Justus Liebig Univ Giessen Ctr Mat Res ZfM Heinrich Buff Ring 16 D-35392 Giessen Germany;
Justus Liebig Univ Giessen Inst Phys Chem Heinrich Buff Ring 17 D-35392 Giessen Germany|Justus Liebig Univ Giessen Ctr Mat Res ZfM Heinrich Buff Ring 16 D-35392 Giessen Germany;
Justus Liebig Univ Giessen Inst Phys Chem Heinrich Buff Ring 17 D-35392 Giessen Germany|Justus Liebig Univ Giessen Ctr Mat Res ZfM Heinrich Buff Ring 16 D-35392 Giessen Germany;
Univ Munster Inst Inorgan & Analyt Chem Corrensstr 30 D-48149 Munster Germany;
composite cathodes; electrolyte degradation; ion transport; Li#8208; S batteries; solid#8208; state batteries; transmission line models;
机译:硫-LiSICON /聚合物复合电解质和硫化聚丙烯腈阴极制成的固态锂硫电池
机译:阐明固态电解质和锂 - 硫电池硫 - 阴极之间的界面现象
机译:基于自支撑石墨烯/碳纳米管泡沫的高性能锂 - 硫磺电池@硫复合阴极和准固态聚合物电解质
机译:固态锂电池中的阴极/电解质界面用硫化物固体电解质
机译:从液体到固体:高性能锂硫电池的高级复合隔板/电解质结构设计
机译:基于聚环氧乙烷基复合材料作为锂金属电池固态聚合物电解质:迷你评论
机译:用聚合物/石榴石固体电解质和复合阴极框架提高固态锂电池中的界面稳定性