Water’s Interfacial Hydrogen Bonding Structure Reveals the Effective Strength of Surface–Water Interactions

The interactions of a hydrophilic surface with water can significantly influence the characteristics of the liquid water interface. In this manuscript, we explore this influence by studying the molecular structure of liquid water at a disordered surface with tunable surface−water interactions. We combine all-atom molecular dynamics simulations with a mean field model of interfacial hydrogen bonding to analyze the effect of surface−water interactions on the structural and energetic properties of the liquid water interface. We find that the molecular structure of water at a weakly interacting (i.e., hydrophobic) surface is resistant to change unless the strength of surface−water interactions is above a certain threshold. We find that below this threshold water’s interfacial structure is homogeneous and insensitive to the details of the disordered surface, however, above this threshold water’s interfacial structure is heterogeneous. Despite this heterogeneity, we demonstrate that the equilibrium distribution...