A theoretical study on spontaneous dipole orientation in ice structures

S. Rasoul Hashemi; Martin R. S. McCoustra; Helen J. Fraser; Gunnar Nyman

doi:10.1039/D2CP00360K

A theoretical study on spontaneous dipole orientation in ice structures

S. Rasoul Hashemi, Martin R. S. McCoustra, Helen J. Fraser, Gunnar Nyman

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Abstract

Spontaneous dipole orientation is studied for a set of simulated porous ASW ice films on a substrate held at temperatures ranging from 10 K to 140 K. It is found that the water dipoles in the films obtained at the lower temperatures are oriented such that a negative electric field with a magnitude of 10⁸-10⁹ V m⁻¹ is obtained. The magnitude of the field increases approximately linearly with height above the substrate, akin to experimental observations, although the magnitude of our field increases faster. A strong temperature dependence of the surface potential resulting from the spontelectric field is found, where the surface potential decreases when the substrate temperature increases. The surface potential finally becomes close to zero for temperatures around and above 110 K.

Original language	English
Pages (from-to)	12922-12925
Number of pages	4
Journal	Physical Chemistry Chemical Physics
Volume	24
Issue number	21
Early online date	13 May 2022
DOIs	https://doi.org/10.1039/D2CP00360K
Publication status	Published - 7 Jun 2022

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title = "A theoretical study on spontaneous dipole orientation in ice structures",

abstract = "Spontaneous dipole orientation is studied for a set of simulated porous ASW ice films on a substrate held at temperatures ranging from 10 K to 140 K. It is found that the water dipoles in the films obtained at the lower temperatures are oriented such that a negative electric field with a magnitude of 108-109 V m−1 is obtained. The magnitude of the field increases approximately linearly with height above the substrate, akin to experimental observations, although the magnitude of our field increases faster. A strong temperature dependence of the surface potential resulting from the spontelectric field is found, where the surface potential decreases when the substrate temperature increases. The surface potential finally becomes close to zero for temperatures around and above 110 K. ",

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AU - Hashemi, S. Rasoul

AU - McCoustra, Martin R. S.

AU - Fraser, Helen J.

AU - Nyman, Gunnar

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Y1 - 2022/6/7

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AB - Spontaneous dipole orientation is studied for a set of simulated porous ASW ice films on a substrate held at temperatures ranging from 10 K to 140 K. It is found that the water dipoles in the films obtained at the lower temperatures are oriented such that a negative electric field with a magnitude of 108-109 V m−1 is obtained. The magnitude of the field increases approximately linearly with height above the substrate, akin to experimental observations, although the magnitude of our field increases faster. A strong temperature dependence of the surface potential resulting from the spontelectric field is found, where the surface potential decreases when the substrate temperature increases. The surface potential finally becomes close to zero for temperatures around and above 110 K.

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JF - Physical Chemistry Chemical Physics

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A theoretical study on spontaneous dipole orientation in ice structures

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