Probing Liquid Drop Induced Deformation on Soft Solids Using Dual-Wavelength Reflection Interference Contrast Microscopy

A liquid drop resting on a soft solid deforms the surface at the three-phase contact line. The surface deformation, also called wetting ridge, varies in size from nanoscales to microscales, depending on the elasticity and thickness of the soft layer. In this work, we probe how surface elasticity and coating thickness influences normal and tangential surface deformation profiles induced by a sessile liquid drop using dual-wavelength reflection interference contrast microscopy. Furthermore, we experimentally verify the appropriate characteristic length scale, which closely describes the ridge profiles on both thick and thin soft layers for two different surface elasticities.

Automated summary

In this study, the authors investigate the surface deformations induced by a liquid drop on a soft solid, and study how surface elasticity and coating thickness affect the deformations.