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    Depinning of Multiphase Fluid Using Light- and Photo-Responsive Surfactants

    Year: 2022

    Journal: ACS Central Sci., Volume 8, FEB 23, page 235–245

    Authors: Zhao, Lei; Seshadri, Serena; Liang, Xichen; Bailey, Sophia J.; Haggmark, Michael; Gordon, Michael; Helgeson, Matthew E.; de Alaniz, Javier Read; Luzzatto-Fegiz, Paolo; Zhu, Yangying

    Organizations: University of California, Santa Barbara; NSF-CASIS Transport Phenomena grant [2025655]; ARO MURI [W911NF-17-1-0306]; Directorate For Engineering [2025655] Funding Source: National Science Foundation; Div Of Chem, Bioeng, Env, & Transp Sys [2025655] Funding Source: National Science Foundation

    The development of noninvasive and robust strategies for manipulation of droplets and bubbles is crucial in applications such as boiling and condensation, electrocatalysis, and microfluidics. In this work, we realize the swift departure of droplets and bubbles from solid substrates by introducing photoresponsive surfactants and applying asymmetric illumination, thereby inducing a photo-Marangoni lift force. Experiments show that a pinned toluene droplet can depart the substrate in only 0.38 s upon illumination, and the volume of an air bubble at departure is reduced by 20%, indicating significantly faster departure. These benefits can be achieved with moderate light intensities and dilute surfactant concentrations, without specially fabricated substrates, which greatly facilitates practical applications. Simulations suggest that the net departure force includes contributions from viscous stresses directly caused by the Marangoni flow, as well as from pressure buildup due to flow stagnation at the contact line. The manipulation scheme proposed here shows potential for applications requiring droplet and bubble removal from working surfaces.
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