机译:实现采用碳纳米管的不对称超级电容器,锚固至Mn3O4阴极和Fe3O4阳极
Indian Inst Sci Solid State &
Struct Chem Unit Bengaluru 560012 India;
Indian Inst Sci Solid State &
Struct Chem Unit Bengaluru 560012 India;
Indian Inst Sci Solid State &
Struct Chem Unit Bengaluru 560012 India;
Indian Inst Sci Solid State &
Struct Chem Unit Bengaluru 560012 India;
Indian Inst Sci Solid State &
Struct Chem Unit Bengaluru 560012 India;
Indian Inst Sci Solid State &
Struct Chem Unit Bengaluru 560012 India;
pseudocapacitive materials; carbon nanotubes; metal-hexacyanoferrate complex; asymmetric supercapacitor; high power density; cycling stability;
机译:实现采用碳纳米管的不对称超级电容器,锚固至Mn3O4阴极和Fe3O4阳极
机译:锚固在多壁碳纳米管上的Mn3O4纳米颗粒:高性能超级电容器的独特协同作用
机译:Mn3O4纳米粒子锚定在碳纳米管上作为具有增强锂储存的阳极材料
机译:实现采用锚固到Mn_3O_4阴极和Fe_3O_4阳极的碳纳米管的不对称超级电容器
机译:用于杂交超级电容器和锂离子电池阳极的碳纳米管/氧化锰复合电极材料
机译:在碳纤维上利用无粘结剂和柔性不对称超级电容器开发Mn3O4和MoS2纳米薄片
机译:实现采用碳纳米管的不对称超级电容器,锚定为Mn3O4阴极和Fe3O4阳极