Interfacial Ice Density Fluctuations Inform Surface Ice-philicity

06 June 2024, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

The propensity of a surface to nucleate ice or bind to ice is governed by its ice-philicity — its relative preference for ice over liquid water. However, the relationship between the features of a surface and its ice-philicity is not well understood, and for surfaces with chemical or topographical heterogeneity, such as proteins, their ice-philicity is not even well-defined. In the analogous problem of surface hydrophobicity, it has been shown that hydrophobic surfaces display enhanced low water-density (vapor-like) fluctuations in their vicinity. To interrogate whether enhanced ice-like fluctuations are similarly observed near ice-philic surfaces, here we use molecular simulations and enhanced sampling techniques. Using a family of model surfaces for which the wetting coefficient, k, has previously been characterized, we show that the free energy of observing rare interfacial ice-density fluctuations decreases monotonically with increasing k. By utilizing this connection, we investigate a set of fcc systems and find that the (110) surface is more ice-philic than the (111) or (100) surfaces. By additionally analyzing the structure of interfacial ice, we find that all surfaces prefer to bind to the basal plane of ice, and the topographical complementarity of the (110) surface to the basal plane explains its higher ice-philicity. Using enhanced interfacial ice-like fluctuations as a measure of surface ice-philicity, we then characterize the ice-philicity of chemically heterogeneous and topologically complex systems. In particular, we study the spruce budworm anti-freeze protein (sbwAFP), which binds to ice using a known ice-binding site (IBS) and resists engulfment using non-binding sites of the protein (NBSs). We find that the IBS displays enhanced interfacial ice-density fluctuations and is therefore more ice-philic than the two NBSs studied. We also find the two NBSs are similarly ice-phobic. By establishing a connection between interfacial ice-like fluctuations and surface ice-philicity, our findings thus provide a way to characterize the ice-philicity of heterogeneous surfaces.

Keywords

ice
ice-philicity
molecular simulations
anti-freeze proteins
enhanced sampling

Supplementary materials

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Supplementary Information
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Supporting Information: Implementation details for order parameters, a comparison between fluctuations and ice-philicity for pseudo-ice and fcc surfaces, and additional details for the sbwAFP calculation.
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