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作 者:Muhammad Junaid Heikki A.Nurmi Mika Latikka Maja Vuckovac Robin H.A.Ras
机构地区:[1]Department of Applied Physics,School of Science,Aalto University,Espoo,Finland [2]Department of Bioproducts and Biosystems,School of Chemical Engineering,Aalto University,Espoo,Finland
出 处:《Droplet》2022年第1期38-47,共10页液滴(英文)
基 金:Academy of Finland,Grant/Award Number:346109;H2020 European Research Council,Grant/Award Number:725513‐SuperRepel。
摘 要:Accurate wetting characterization is crucial for the development of next‐generation superhydrophobic surfaces.Traditionally,wetting properties are measured with a contact angle goniometer(CAG)suitable for a broad range of surfaces.However,due to optical errors and challenges in baseline positioning,the CAG method suffers from inaccuracies on superhydrophobic surfaces.Here we present an improved version of the oscillating droplet tribometer(ODT),which can reliably assess wetting properties on superhydrophobic surfaces by measuring the frictional forces of a water‐based ferrofluid droplet oscillating in a magnetic field.We demonstrate that ODT has superior accuracy compared to CAG by measuring the wetting properties of four different superhydrophobic surfaces(commercial Glaco and Hydrobead coatings,black silicon coated with fluoropolymer,and nanostructured copper modified with lauric acid).We show that ODT can detect the small but significant changes in wetting properties caused by the thermal restructuring of surfaces that are undetectable by CAG.Even more,unlike any other wetting characterization technique,ODT features an inverse sensitivity:the more repellent the surface,the lower the error of measurement,which was demonstrated by experiments and simulations.
关 键 词:OSCILLATING frictional WETTING
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