From coffee stains to uniform deposits: significance of the contact-line mobility

TL;DR

This paper investigates how contact-line mobility during droplet drying influences deposit shapes, revealing that controlling contact-line motion can produce uniform or varied deposit morphologies in inkjet printing.

Contribution

It introduces a phenomenological model linking contact-line behavior and solvent evaporation to deposit morphology, enabling tailored deposit formation.

Findings

Pinned contact line yields ring-like deposits.

Mobile contact line can produce ring, dome, or at deposits.

Model predicts deposit shape based on evaporation and contact-line dynamics.

Abstract

Hypothesis: Contact-line motion upon drying of sessile droplet strongly affects the solute transport and solvent evaporation profile. Hence, it should have a strong impact on the deposit formation and might be responsible for volcano-like, dome-like and at deposit morphologies. Experiments: A method based on a thin-film interference was used to track the drop height profile and contact line motion during the drying. A diverse set of drying scenarios was obtained by using inks with different solvent compositions and by adjusting the substrate wetting properties. The experimental data was compared to the predictions of phenomenological model. Findings: We highlight the essential role of contact-line mobility on the deposit morphology of solution-based inks. A pinned contact line produces exclusively ring-like deposits under normal conditions. On the contrary, drops with a mobile contact line can produce ring-, at- or dome-like morphology. The developed phenomenological model shows that the deposit morphology depends on solvent evaporation profile, evolution of the drop radius relative to its contact angle, and the ratio between initial and maximal (gelling) solute concentration. These parameters can be adjusted by the ink solvent composition and substrate wetting behaviour, which provides a way for deposition of uniform and at deposits via inkjet printing.