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机译:MNO2 / G-C3N4纳米复合材料,具有高增强的超级电容器性能
Shanghai Maritime Univ Coll Ocean Sci &
Engn Inst Marine Mat Sci &
Engn Shanghai 201306 Peoples R China;
Shanghai Maritime Univ Coll Logist Engn Shanghai 201306 Peoples R China;
Shanghai Maritime Univ Coll Logist Engn Shanghai 201306 Peoples R China;
Shanghai Maritime Univ Coll Ocean Sci &
Engn Inst Marine Mat Sci &
Engn Shanghai 201306 Peoples R China;
Shanghai Maritime Univ Coll Ocean Sci &
Engn Inst Marine Mat Sci &
Engn Shanghai 201306 Peoples R China;
Shanghai Maritime Univ Coll Ocean Sci &
Engn Inst Marine Mat Sci &
Engn Shanghai 201306 Peoples R China;
Univ Exeter Coll Engn Math &
Phys Sci Exeter EX4 4SB Devon England;
MnO2; g-C3N4; graphene oxide; supercapacitor; composite;
机译:MNO2 / G-C3N4纳米复合材料,具有高增强的超级电容器性能
机译:高效且可回收的g-C3N4 / CuO杂化纳米复合材料,增强了可见光的光催化性能
机译:高效且可回收的G-C3N4 / CuO杂交纳米复合材料升高可见光光催化性能
机译:基于粒状MnO2和MnO2掺杂V2O5电极的对称超级电容器性能评价
机译:优化超级电容器电极材料和厚度以增强性能的研究。
机译:具有超级电容器的CNT芯/多孔MnO2鞘层体系结构的水热合成MnO2 / CNT纳米复合材料
机译:通过一步溶液处理增强高分分散的Pt / G-C3N4纳米复合材料的可见光光催化性能