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机译:通过真空渗透到锂离子电容水溶液中的膨胀石墨中的真空渗透,增强LiFepo
School of Chemistry and Materials Science Heilongjiang University;
School of Chemistry and Materials Science Heilongjiang University;
School of Chemistry and Materials Science Heilongjiang University;
School of Chemistry and Materials Science Heilongjiang University;
School of Chemistry and Materials Science Heilongjiang University;
Department of Adhesives Heilongjiang Institute of Petrochemistry;
School of Chemistry and Materials Science Heilongjiang University;
School of Materials Science and Engineering Georgia Institute of Technology;
Lithium iron phosphate; nanocomposites; supercapacitors; li-ion capacitors; aqueous electrolytes;
机译:通过真空渗透到锂离子电容水溶液中的膨胀石墨中的真空渗透,增强LiFepo
机译:<!“inf place =”post“> 0.2 ce:inf> o
机译:用于提高能量存储性能的微观结构剪裁0.98 [0.6Ba(Zr
机译:碳纳米管对锂离子电池LiFePO
机译:固态合成提高铝掺杂磷酸铁锂(LiFePO4)正极材料的电化学性能
机译:高性能水性锂离子流量通过悬架电极的微观结构设计实现
机译:水热合成和球形锂电的电化学性能; 4 $ LT; / INF $ GT; TI $ LT; 5 $ LT; / INF $ GT; O $ LT; INF $ GT; 12 $ / inf $ 作为锂离子二次电池的阳极材料