A combined criterion of surface free energy and roughness to predict the wettability of non-ideal low-energy surfaces

TL;DR

This paper introduces a new parameter combining surface free energy and roughness to better predict wettability on real, rough low-energy surfaces, addressing limitations of existing models.

Contribution

A novel normalized surface free energy (NSFE) parameter is proposed to improve contact angle predictions on non-ideal rough surfaces.

Findings

Predicted contact angles closely match measured values.

NSFE effectively accounts for surface roughness in wettability predictions.

The approach enhances accuracy over traditional SFE-based models.

Abstract

The significance of wettability between solid and liquid substances in different fields encourages scientists to develop accurate models to estimate the resultant apparent contact angles. Surface free energy (SFE), which is principally defined for ideal (flat) surfaces, is not applicable to predict the wettability of real (rough) surfaces. This paper introduces a new parameter, namely normalized surface free energy (NSFE) as a combination of SFE and roughness, to predict the contact angle of liquids on non-ideal low-energy surfaces. The remarkable consistency of the predicted and measured contact angles of liquids on some rough surfaces also confirm the validity of the approach.