• 文献标题:   Electric field mediated separation of water-ethanol mixtures in carbon-nanotubes integrated in nanoporous graphene membranes
  • 文献类型:   Article
  • 作  者:   BORTHAKUR MP, BANDYOPADHYAY D, BISWAS G
  • 作者关键词:  
  • 出版物名称:   FARADAY DISCUSSIONS
  • ISSN:   1359-6640 EI 1364-5498
  • 通讯作者地址:   Indian Inst Technol Guwahati
  • 被引频次:   3
  • DOI:   10.1039/c8fd00027a
  • 出版年:   2018

▎ 摘  要

We investigate the influence of an applied electric field on the separation of a water-ethanol solution inside a carbon nanotube (CNT) using a series of molecular dynamics simulations. The electric field is applied at an angle theta with respect to the axis of the CNT. The study uncovers that with the application of a 'small-angle' electric field (e.g. smaller theta), the water molecules exhibit preferential occupancy inside the CNT, whereas the application of the same electric field at a 'wide-angle' mode (e.g. higher theta) fills the CNT with ethanol molecules in place of water. Remarkably, the direction of the electric field plays a pivotal role because the field exerts a contrasting influence on the behaviours of the water and ethanol molecules. The water dipoles are favourably aligned at small values of theta creating an ordered water structure inside the CNT. Increasing theta disrupts the water dipole orientation and leads to the preferential occupancy of the CNT by ethanol molecules. An in-depth analysis on the simulated systems unveil that, at lower values of theta, multiple layers of water molecules are physically adsorbed near the CNT walls, which is found to diminish as theta is increased. In comparison, at higher magnitudes of theta, the ethanol molecules are preferentially adsorbed inside the CNT. The average interaction energy per ethanol (water) molecule is found to increase (reduce) when theta is monotonically increased, which can be ascribed to the increase (decrease) in the intermolecular hydrogen bonding capacity of the ethanol (water) molecules at larger values of theta. Consequently, inside the CNT, the average occupancy of water molecules decreases and ethanol molecules increases, as theta is monotonically increased, leading to the separation of the ethanol-water mixture. The proposed methodology can convert an equimolar mixture (1 : 1) of ethanol-water into a concentrated one (14 : 1) when the electric field is applied orthogonal to the axis of the CNT. The separation efficiency is found to improve with an increase in the intensity of the externally applied electric field.