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Electrolyte Engineering: Optimizing High-Rate Double-Layer Capacitances of Micropore- and Mesopore-Rich Activated Carbon
ChemSusChem ( IF 7.5 ) Pub Date : 2017-09-13 01:10:56 , DOI: 10.1002/cssc.201701476 Ting-Hao Chen,Cheng-Hsien Yang,Ching-Yuan Su,Tai-Chou Lee,Quan-Feng Dong,Jeng-Kuei Chang
ChemSusChem ( IF 7.5 ) Pub Date : 2017-09-13 01:10:56 , DOI: 10.1002/cssc.201701476 Ting-Hao Chen,Cheng-Hsien Yang,Ching-Yuan Su,Tai-Chou Lee,Quan-Feng Dong,Jeng-Kuei Chang
Charged with a salt: Micropore-rich activated carbon (AC) was tested as a supercapacitor material. The high-rate capability is governed by desolvated cation mobility, and outperforms the related mesopore-rich AC where electrolyte conductivity takes precedence.
中文翻译:
电解质工程:优化富含微孔和中孔的活性炭的高双层电容
含盐:测试了富含微孔的活性炭(AC)作为超级电容器材料。高速率能力受去溶剂化的阳离子迁移率的支配,并且胜过电解质电导率优先的相关中孔富集的AC。
更新日期:2017-09-13
中文翻译:
电解质工程:优化富含微孔和中孔的活性炭的高双层电容
含盐:测试了富含微孔的活性炭(AC)作为超级电容器材料。高速率能力受去溶剂化的阳离子迁移率的支配,并且胜过电解质电导率优先的相关中孔富集的AC。