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The accretion of the new ice layer on the surface of hexagonal ice crystal and the influence of the local electric field on this process

Abstract

The process of creation of a new layer of ice on the basal plane and on the prism plane of a hexagonal ice crystal is analyzed. It is demonstrated that the ordering of water molecules in the already existing crystal affects the freezing. On the basal plane, when the orientations of water molecules in the ice block are random, the arrangement of the new layer in a cubic manner is observed more frequently — approximately 1.7 times more often than in a hexagonal manner. When the water molecules in the ice block are more ordered, it results in the predominance of the oxygen atoms or the hydrogen atoms on the most outer part of the surface of the ice block. In this case, the hexagonal structure is formed more frequently when the supercooling of water exceeds 10 K. This phenomenon is explained by the influence of the oriented electric field, present as a consequence of the ordering of the dipoles of water molecules in the ice block. This field modifies the structure of solvation water (i.e., the layer of water in the immediate vicinity of the ice surface). We showed that the structure of solvation water predetermines the kind of the newly created layer of ice. This effect is temperature-dependent: when the temperature draws nearer to the melting point, the cubic structure becomes the prevailing form. The temperature at which the cubic and the hexagonal structures are formed with the same probabilities is equal to about 260 K. In the case of the prism plane, the new layer that is formed is always the hexagonal one, which is independent of the arrangement of water molecules in the ice block and is in agreement with previous literature data. For the basal plane, as well as for the prism plane, no evident dependence on the ordering of water molecules that constitute the ice block on the rate of crystallization can be observed.

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Category:
Articles
Type:
artykuł w czasopiśmie wyróżnionym w JCR
Published in:
JOURNAL OF CHEMICAL PHYSICS no. 147, edition 17, pages 1 - 9,
ISSN: 0021-9606
Language:
English
Publication year:
2017
Bibliographic description:
Grabowska J., Kuffel A., Zielkiewicz J.: The accretion of the new ice layer on the surface of hexagonal ice crystal and the influence of the local electric field on this process// JOURNAL OF CHEMICAL PHYSICS. -Vol. 147, iss. 17 (2017), s.1-9
DOI:
Digital Object Identifier (open in new tab) 10.1063/1.4994612
Verified by:
Gdańsk University of Technology

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