Issue 22, 2012

Spontaneous encapsulation behavior of ionic liquid into carbon nanotube

Abstract

Molecular dynamics simulations and density functional theory have been performed to investigate the spontaneous encapsulation of 1-butyl-3-methylimidazolium chloride ([Bmim][Cl]) into single-walled carbon nanotubes (SWCNTs). This phenomenon can be attributed to the van der Waals attractive force, hydrogen bonds and especially the π–π stacking effect. The [Bmim][Cl] molecules enter SWCNTs with larger diameters more rapidly, showing an interesting dependence on tube size. A high temperature is not beneficial to, and may even disrupt, the encapsulation of the [Bmim][Cl] molecules. It is also worth noting that the graphene nanoribbon entering the SWCNT would have an extremely different effect on this encapsulation process from when they wrap around the outer surface. Furthermore, the [Bmim][Cl] molecules can assist water transport in the SWCNT by expelling water molecules from the SWCNT. The proposed discoveries eventually provide a powerful way to fabricate nanoscale materials and devices and tune their properties.

Graphical abstract: Spontaneous encapsulation behavior of ionic liquid into carbon nanotube

Supplementary files

Article information

Article type
Paper
Submitted
08 Jun 2012
Accepted
18 Sep 2012
First published
21 Sep 2012

Nanoscale, 2012,4, 7063-7069

Spontaneous encapsulation behavior of ionic liquid into carbon nanotube

Y. Jiang, K. Zhang, H. Li, Y. He and X. Song, Nanoscale, 2012, 4, 7063 DOI: 10.1039/C2NR31432K

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