Registry-Dependent Potential for Interfaces of Water with Graphene
ZC Feng and YP Yao and JX Liu and BZ Wu and Z Liu and WE Ouyang, JOURNAL OF PHYSICAL CHEMISTRY C, 127, 8704-8713 (2023).
DOI: 10.1021/acs.jpcc.2c08464
An anisotropic interlayer potential that can accurately describe the van der Waals interaction of the water- graphene interface is presented. The force field is benchmarked against the many-body dispersion-corrected density functional theory. The parametrization of the interlayer potential demon-strates a satisfactory agreement with the reference data set of binding energy curves and sliding potential energy surfaces for various configurations of a water molecule deposited on monolayer graphene, indicating that the developed force field significantly enhances the accuracy in the empirical description of water- graphene interfacial interactions. The water contact angles of monolayer and multilayer graphene extracted from molecular dynamics simulations based on this force field are close to the experimental measurements and predict the hydrophilic nature of graphene. The theoretical approach proposed in this work can be easily adapted to heterointerfaces formed with water and other two-dimensional materials, providing a reliable and versatile platform for studying the wetting properties of these materials.
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