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The understanding of confined structure and flow property of ionic liquid (IL) in a nanochannel are essential for the efficient application of ILs in the green chemical processes. In this work, the ionic structure and various flow behaviors of ILs inside graphene nanochannels via molecular dynamics simulations are shown. The effect of the nanochannel structure on confined flow is explored, showing...
In article number 1804508, Hongyan He, Suojiang Zhang, and co‐workers explore the size‐driven flow of confined ionic liquid (IL) inside carbon nanochannels, which can be described well by a theoretical parameter. Such a mechanism can inspire more better application of IL in the field of energy storage and conversion.
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