Issue 49, 2023

Dynamics of droplet motion over hydrophobic surfaces with functionalized and non-functionalized ferro particles

Abstract

Dynamically manipulating droplet motion on hydrophobic surfaces is crucial in various fields, including biomedical, sensing, actuation, and oil–water separation applications. Ferrofluid droplets can be manipulated and controlled using external magnetic forces. The creation of ferrofluids involves multiple procedures that can affect the functionality and stability of droplet manipulation, limiting their use in sustainable applications. This study investigates the dynamics of droplet motion over functionalized and non-functionalized ferroparticles, considering different droplet volumes, ferroparticle layer widths, and wt% concentrations. The translational and sliding velocities of the droplets are measured using high-speed camera recording with a tracker application. The finding revealed the transformation of a droplet sliding motion into a rolling motion with propulsion under the magnetic influence. The sliding velocity increases for the droplets moving over the ordinary ferroparticles on the hydrophobic surface. However, the droplet motion is dominated by rolling in the case of hydrophobic ferro particles. The droplet sliding velocity rises sharply at high concentrations (or layer width) of ferroparticle as the magnetic bond number rises sharply to 3. A newborn droplet adheres to the magnet surface during droplet rolling and sliding motion.

Graphical abstract: Dynamics of droplet motion over hydrophobic surfaces with functionalized and non-functionalized ferro particles

Supplementary files

Article information

Article type
Paper
Submitted
06 Sep 2023
Accepted
21 Nov 2023
First published
29 Nov 2023
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2023,13, 34866-34875

Dynamics of droplet motion over hydrophobic surfaces with functionalized and non-functionalized ferro particles

G. Hassan, B. S. Yilbas, A. A. Abubakar, H. Al-Qahtani and A. Al-Sharafi, RSC Adv., 2023, 13, 34866 DOI: 10.1039/D3RA06073J

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