机译:碳量子点诱导的MNO2纳米线形成和构建粘合剂无柔性膜,具有优异的超级性和增强的超级电容器性能
Shanghai Univ Elect Power Coll Environm &
Chem Engn Shanghai Key Lab Mat Protect &
Adv Mat Elect Powe Shanghai 200090 Peoples R China;
Shanghai Univ Elect Power Coll Environm &
Chem Engn Shanghai Key Lab Mat Protect &
Adv Mat Elect Powe Shanghai 200090 Peoples R China;
Shanghai Univ Elect Power Coll Environm &
Chem Engn Shanghai Key Lab Mat Protect &
Adv Mat Elect Powe Shanghai 200090 Peoples R China;
Shanghai Univ Elect Power Coll Environm &
Chem Engn Shanghai Key Lab Mat Protect &
Adv Mat Elect Powe Shanghai 200090 Peoples R China;
Fudan Univ Dept Chem Inst New Energy Shanghai 200433 Peoples R China;
Fudan Univ Dept Chem Inst New Energy Shanghai 200433 Peoples R China;
carbon quantum dots; MnO2 nanowires; flexible electrode; superhydrophilicity; supercapacitor;
机译:碳量子点诱导的MNO2纳米线形成和构建粘合剂无柔性膜,具有优异的超级性和增强的超级电容器性能
机译:超细MnO2纳米线在RGO涂覆的碳布上生长,作为无效性的无粘合剂和柔性超级电容器电极
机译:在RGO涂层的碳布上生长的超细MnO2纳米线,作为无粘合剂的柔性超级电容器电极,具有高性能
机译:通过柔性粘合剂SWCNT膜电极增强对称双层电容的性能
机译:基于碳和金属氧化物的纳米材料,用于柔性高性能不对称超级电容器
机译:多孔α-Fe2O3@ C纳米线阵列作为具有优异电化学性能的柔性超级电容器电极材料
机译:超细MnO2纳米线在RGO涂覆的碳布上生长,作为无效性的无粘合剂和柔性超级电容器电极