Identification of a common ice nucleus on hydrophilic and hydrophobic close-packed metal surfaces

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Abstract

Establishing a general model of heterogeneous ice nucleation has long been challenging because of the surface water structures found on different substrates. Identifying common water clusters, regardless of the underlying substrate, is one of the key steps toward solving this problem. Here, we demonstrate the presence of a common water cluster found on both hydrophilic Pt(111) and hydrophobic Cu(111) surfaces using scanning tunneling microscopy and non-contact atomic force microscopy. Water molecules self-assemble into a structure with a central flat-lying hexagon and three fused pentagonal rings, forming a cluster consisting of 15 individual water molecules. This cluster serves as a critical nucleus during ice nucleation on both surfaces: ice growth beyond this cluster bifurcates to form two-dimensional (three-dimensional) layers on hydrophilic (hydrophobic) surfaces. Our results reveal the inherent similarity and distinction at the initial stage of ice growth on hydrophilic and hydrophobic close-packed metal surfaces; thus, these observations provide initial evidence toward a general model for water-substrate interaction.

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Chen, P., Xu, Q., Ding, Z., Chen, Q., Xu, J., Cheng, Z., … Yao, N. (2023). Identification of a common ice nucleus on hydrophilic and hydrophobic close-packed metal surfaces. Nature Communications, 14(1). https://doi.org/10.1038/s41467-023-41436-x

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