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机译:通过工程层次多孔碳建筑实现高能密度和超稳定的锌离子混合超级电容器
South China Agr Univ Coll Mat &
Energy Guangzhou 510642 Guangdong Peoples R China;
South China Agr Univ Coll Mat &
Energy Guangzhou 510642 Guangdong Peoples R China;
Sun Yat Sen Univ Sch Chem MOE Key Lab Bioinorgan &
Synthet Chem KLGHEI Environm Guangzhou 510275 Guangdong Peoples R China;
South China Agr Univ Coll Mat &
Energy Guangzhou 510642 Guangdong Peoples R China;
South China Agr Univ Coll Mat &
Energy Guangzhou 510642 Guangdong Peoples R China;
South China Agr Univ Coll Mat &
Energy Guangzhou 510642 Guangdong Peoples R China;
South China Agr Univ Coll Mat &
Energy Guangzhou 510642 Guangdong Peoples R China;
South China Agr Univ Coll Mat &
Energy Guangzhou 510642 Guangdong Peoples R China;
Sun Yat Sen Univ Sch Chem MOE Key Lab Bioinorgan &
Synthet Chem KLGHEI Environm Guangzhou 510275 Guangdong Peoples R China;
South China Agr Univ Coll Mat &
Energy Guangzhou 510642 Guangdong Peoples R China;
Hierarchical porous carbon; Zinc-ion hybrid supercapacitors; Molecular-scale mixing strategy; High energy density; Cycling stability;
机译:通过工程层次多孔碳建筑实现高能密度和超稳定的锌离子混合超级电容器
机译:优化锌离子杂交超级电容器的氮掺杂分层多孔碳的理性设计
机译:优化锌离子杂交超级电容器的氮掺杂分层多孔碳的理性设计
机译:使用二氧化锰装饰的直接原型多孔碳电极的高能量密度片上超级电容器
机译:用于电化学超级电容器的分层多孔碳材料和Limn2O4电极
机译:多孔Fe2O3纳米杆在分层多孔生物质碳上作为高能密度不对称超级电容器的先进阳极
机译:多孔Fe2O3纳米杆在分层多孔生物质碳上作为高能密度不对称超级电容器的先进阳极