Synergy and pinning effects in a monatomic liquid film in confined conditions

Weikang Wu; Leining Zhang; Hongru Ren; Kun Zhang; Hui Li; Yezeng He

doi:10.1039/c5cp00354g

Synergy and pinning effects in a monatomic liquid film in confined conditions

Weikang Wu, Leining Zhang, Hongru Ren, Kun Zhang, Hui Li^*, Yezeng He

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

The freezing behavior of a monatomic liquid film in confined conditions during rapid cooling was studied by molecular dynamics simulations. We illustrated the synergy and pinning effects of the local icosahedral order during freezing. Our results show that the icosahedron contributes to nucleation through the synergy with other short-range ordered structures and participates in crystal growth via assimilation, but the pinning effect should be overcome when crystals grow. Furthermore, a semi-ordered morphology with maze-like nano-patterns emerged due to the cooperation between the synergy effect and the pinning effect. Our findings shed light on the correlation between the local icosahedral order and the crystalline medium-range order, providing a better understanding of the rapid solidification.

Original language	English
Pages (from-to)	13380-13386
Number of pages	7
Journal	Physical Chemistry Chemical Physics
Volume	17
Issue number	20
DOIs	https://doi.org/10.1039/c5cp00354g
Publication status	Published - 28 May 2015
Externally published	Yes

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abstract = "The freezing behavior of a monatomic liquid film in confined conditions during rapid cooling was studied by molecular dynamics simulations. We illustrated the synergy and pinning effects of the local icosahedral order during freezing. Our results show that the icosahedron contributes to nucleation through the synergy with other short-range ordered structures and participates in crystal growth via assimilation, but the pinning effect should be overcome when crystals grow. Furthermore, a semi-ordered morphology with maze-like nano-patterns emerged due to the cooperation between the synergy effect and the pinning effect. Our findings shed light on the correlation between the local icosahedral order and the crystalline medium-range order, providing a better understanding of the rapid solidification.",

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AU - Wu, Weikang

AU - Zhang, Leining

AU - Ren, Hongru

AU - Zhang, Kun

AU - Li, Hui

AU - He, Yezeng

PY - 2015/5/28

Y1 - 2015/5/28

N2 - The freezing behavior of a monatomic liquid film in confined conditions during rapid cooling was studied by molecular dynamics simulations. We illustrated the synergy and pinning effects of the local icosahedral order during freezing. Our results show that the icosahedron contributes to nucleation through the synergy with other short-range ordered structures and participates in crystal growth via assimilation, but the pinning effect should be overcome when crystals grow. Furthermore, a semi-ordered morphology with maze-like nano-patterns emerged due to the cooperation between the synergy effect and the pinning effect. Our findings shed light on the correlation between the local icosahedral order and the crystalline medium-range order, providing a better understanding of the rapid solidification.

AB - The freezing behavior of a monatomic liquid film in confined conditions during rapid cooling was studied by molecular dynamics simulations. We illustrated the synergy and pinning effects of the local icosahedral order during freezing. Our results show that the icosahedron contributes to nucleation through the synergy with other short-range ordered structures and participates in crystal growth via assimilation, but the pinning effect should be overcome when crystals grow. Furthermore, a semi-ordered morphology with maze-like nano-patterns emerged due to the cooperation between the synergy effect and the pinning effect. Our findings shed light on the correlation between the local icosahedral order and the crystalline medium-range order, providing a better understanding of the rapid solidification.

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VL - 17

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JO - Physical Chemistry Chemical Physics

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Synergy and pinning effects in a monatomic liquid film in confined conditions

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