Supersolvophobic Soft Wetting: Nanoscale Elastocapillarity, Adhesion, and Retention of a Drop Behaving as a Nanoparticle
PR Desai and YB Wang and HS Sachar and HY Jing and S Sinha and S Das, MATTER, 1, 1262-1273 (2019).
DOI: 10.1016/j.matt.2019.07.001
Understanding the drop behavior on either hydrophobic (solvophobic) surfaces or soft surfaces is essential for applications in heat exchangers, self-cleaning surfaces, and condensation-promoting and coffee-stain-arresting surfaces. Here, we probe-through molecular dynamics simulations-the drop dynamics on a surface that is both phobic and soft, represented as a surface grafted with a layer of solvophobic polymer brushes. We discover that the drop behaves like a nanoparticle and deforms the polymer brush layer by elastocapillary adhesion, ensuring that the resulting contact angles obey Young's law. Furthermore, the brush layer with a smaller stiffness (representing a surface of reduced elasticity) (1) experiences an elastocapillarity- adhesion-mediated enhanced soft-solid deformation that closely follows the prediction of the JKR law, (2) leads to a weakened drop motion (as a translation of a nanoparticle) and a weakened motion of the deformed solid ridge, and (3) enforces a large retentivity of the drops on the brush layer.
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