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Literature DB >> 24410232

Flow enhancement in nanotubes of different materials and lengths.

Konstantinos Ritos¹, Davide Mattia², Francesco Calabrò³, Jason M Reese⁴.

Abstract

The high water flow rates observed in carbon nanotubes (CNTs) have previously been attributed to the unfavorable energetic interaction between the liquid and the graphitic walls of the CNTs. This paper reports molecular dynamics simulations of water flow in carbon, boron nitride, and silicon carbide nanotubes that show the effect of the solid-liquid interactions on the fluid flow. Alongside an analytical model, these results show that the flow enhancement depends on the tube's geometric characteristics and the solid-liquid interactions.

Entities: Chemical

Year: 2014 PMID： 24410232 DOI： 10.1063/1.4846300

Source DB: PubMed Journal: J Chem Phys ISSN： 0021-9606 Impact factor: 3.488

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Cited

4 in total

1. A computational assessment of the permeability and salt rejection of carbon nanotube membranes and their application to water desalination.

Authors: Michael Thomas; Ben Corry
Journal: Philos Trans A Math Phys Eng Sci Date: 2016-02-13 Impact factor: 4.226

Flow enhancement in nanotubes of different materials and lengths.

1. A computational assessment of the permeability and salt rejection of carbon nanotube membranes and their application to water desalination.

2. Electric fields can control the transport of water in carbon nanotubes.

3. Effects of channel size, wall wettability, and electric field strength on ion removal from water in nanochannels.

4. Nanoscale slip length prediction with machine learning tools.