...
机译:多孔石墨碳纳米片衍生自用于先进的超级电容器的玉米秆生物量
Heilongjiang Univ Minist Educ Peoples Republ China Key Lab Funct Inorgan Mat Chem Harbin 150080 Peoples R China;
Heilongjiang Univ Minist Educ Peoples Republ China Key Lab Funct Inorgan Mat Chem Harbin 150080 Peoples R China;
Heilongjiang Univ Minist Educ Peoples Republ China Key Lab Funct Inorgan Mat Chem Harbin 150080 Peoples R China;
Heilongjiang Univ Minist Educ Peoples Republ China Key Lab Funct Inorgan Mat Chem Harbin 150080 Peoples R China;
Heilongjiang Univ Minist Educ Peoples Republ China Key Lab Funct Inorgan Mat Chem Harbin 150080 Peoples R China;
Heilongjiang Univ Minist Educ Peoples Republ China Key Lab Funct Inorgan Mat Chem Harbin 150080 Peoples R China;
Heilongjiang Univ Minist Educ Peoples Republ China Key Lab Funct Inorgan Mat Chem Harbin 150080 Peoples R China;
Heilongjiang Univ Minist Educ Peoples Republ China Key Lab Funct Inorgan Mat Chem Harbin 150080 Peoples R China;
biomass; carbon; graphitic nanosheets; mesoporous materials; supercapacitors;
机译:多孔石墨碳纳米片衍生自用于先进的超级电容器的玉米秆生物量
机译:通过嫁接多孔碳纳米液进行高性能超级电容器的生物质衍生的硬碳表面改性
机译:具有量身定制的石墨化程度和孔径分布的生物质多孔碳,用于具有超高倍率能力的超级电容器
机译:一种新的生物量衍生的互连纳米蛋白酶来自富含玫瑰的多孔碳,衍生为先进的超级电容器应用的廉价和可持续的能源材料
机译:可持续生物质资源中的多孔碳吸附剂和超级电容器电极
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