4.6 Article

Effect of the direction of static electric fields on water transport through nanochannels

CHEMICAL PHYSICS LETTERS (2021)

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Effect of the direction of static electric fields on water transport through nanochannels

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Summary: The transport properties of water molecules through single-walled carbon nanotubes under static electric fields were studied through molecular dynamics simulations. The research found that the net water flux is much larger in the direction opposite to the hydrostatic pressure under certain electric field intensities. This is mainly attributed to the electric field tuning the polarization direction of the water chain in the nanotube, affecting the barrier height for water molecules to pass through. Additionally, water molecule chains moving forward with oxygen atoms can pass through the nanotube faster than those with hydrogen atoms.

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