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(EMIm)+(PF6)− Ionic Liquid Unlocks Optimum Energy/Power Density for Architecture of Nanocarbon-Based Dual-Ion Battery

Shi, Xiaoyuan ; Zhang, Wei ; Wang, Jiafu ; Zheng, Weitao ; Huang, Keke ; Zhang, Hengbin ; Feng, Shouhua ; Chen, Hong

Advanced energy materials, 2016-12, Vol.6 (24), p.n/a [Periódico revisado por pares]

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Título:
(EMIm)+(PF6)− Ionic Liquid Unlocks Optimum Energy/Power Density for Architecture of Nanocarbon-Based Dual-Ion Battery
Autor: Shi, Xiaoyuan ; Zhang, Wei ; Wang, Jiafu ; Zheng, Weitao ; Huang, Keke ; Zhang, Hengbin ; Feng, Shouhua ; Chen, Hong
Assuntos: dual-ion batteries ; energy density ; graphene ; ionic liquid ; Lithium ; power density
É parte de: Advanced energy materials, 2016-12, Vol.6 (24), p.n/a
Notas: ark:/67375/WNG-Q7NFK0W2-X
ArticleID:AENM201601378
istex:77CAE3A418F5ACDFECE92BF8FD60B600D5FFA189
Descrição: A delicate configuration of dual‐ion battery is proposed to achieve optimum energy/power density. High potential intercalation reaction of positive electrode contributes to high energy density and quick absorption/desorption of negative is beneficial for power density. Such novel designed electrochemical energy storage device enables access to optimum power/energy density.
Editor: Weinheim: Blackwell Publishing Ltd
Idioma: Inglês

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