Atomic Steps Induce the Aligned Growth of Ice Crystals on Graphite Surfaces

Heterogeneous ice nucleation on atmospheric aerosols strongly affects the earth’s climate, and at the microscopic level, surface-irregularity-induced ice crystallization behaviors are common but crucial. Because of the lack of visual evidence and effective experimental methods, the mechanism of atom...

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Veröffentlicht in:	Nano letters 2020-11, Vol.20 (11), p.8112-8119
Hauptverfasser:	Zhang, Zhouyang, Ying, Yiran, Xu, Ming, Zhang, Chuanlin, Rao, Zhenggang, Ke, Shanming, Zhou, Yangbo, Huang, Haitao, Fei, Linfeng
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creator	Zhang, Zhouyang Ying, Yiran Xu, Ming Zhang, Chuanlin Rao, Zhenggang Ke, Shanming Zhou, Yangbo Huang, Haitao Fei, Linfeng
description	Heterogeneous ice nucleation on atmospheric aerosols strongly affects the earth’s climate, and at the microscopic level, surface-irregularity-induced ice crystallization behaviors are common but crucial. Because of the lack of visual evidence and effective experimental methods, the mechanism of atomic-structure-dependent ice formation on aerosol surfaces is poorly understood. Here we chose highly oriented pyrolytic graphite (HOPG) to represent soot (a primary aerosol), and environmental scanning electron microscopy (ESEM) was performed for in situ observations of ice formation. We found that hexagonal ice crystals show an aligned growth pattern via a two-stage pathway with one a axis coinciding with the direction of atomic step edges on the HOPG surface. Additionally, the ice crystals grow at a noticeably higher speed along this direction. This study reveals the role of atomic surface defects in heterogeneous ice nucleation and may pave the way to control icing-related processes in practical applications.
doi_str_mv	10.1021/acs.nanolett.0c03132
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title	Atomic Steps Induce the Aligned Growth of Ice Crystals on Graphite Surfaces
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