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W2034262161 abstract "Hydrophobicity, and in particular superhydrophobicity, has been extensively considered to promote ice-phobicity. Dynamic contact angle measurements above 0 °C have been widely used to evaluate the water repellency. However, it is the wetting properties of supercooled water at subzero temperatures and the derived work of adhesion that are important for applications dealing with icing. In this work we address this issue by determining the temperature-dependent dynamic contact angle of microliter-sized water droplets on a smooth hydrophobic and a superhydrophobic surface with similar surface chemistry. The data highlight how the work of adhesion of water in the temperature interval from about 25 °C to below −10 °C is affected by surface topography. A marked decrease in contact angle on the superhydrophobic surface is observed with decreasing temperature, and we attribute this to condensation below the dew point. In contrast, no significant wetting transition is observed on the smooth hydrophobic surface. The freezing temperature and the freezing delay time were determined for water droplets resting on a range of surfaces with similar chemistry but different topography, including smooth and rough surfaces in either the Wenzel or the Cassie–Baxter state as characterized by water contact angle measurements at room temperature. We find that the water freezing delay time is not significantly affected by the surface topography and discuss this finding within the classical theory of heterogeneous nucleation." @default.
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W2034262161 date "2013-10-11" @default.
W2034262161 modified "2023-10-16" @default.
W2034262161 title "Hydrophobic Surfaces: Topography Effects on Wetting by Supercooled Water and Freezing Delay" @default.
W2034262161 cites W1499181428 @default.
W2034262161 cites W1910389182 @default.
W2034262161 cites W1963738579 @default.
W2034262161 cites W1965576407 @default.
W2034262161 cites W1969888076 @default.
W2034262161 cites W1970288298 @default.
W2034262161 cites W1975140804 @default.
W2034262161 cites W1980183926 @default.
W2034262161 cites W1981491832 @default.
W2034262161 cites W1981695572 @default.
W2034262161 cites W1981980643 @default.
W2034262161 cites W1983189968 @default.
W2034262161 cites W1988587750 @default.
W2034262161 cites W1995275925 @default.
W2034262161 cites W1995619771 @default.
W2034262161 cites W2000317483 @default.
W2034262161 cites W2001539726 @default.
W2034262161 cites W2005687372 @default.
W2034262161 cites W2007390452 @default.
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W2034262161 cites W2018125145 @default.
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W2034262161 cites W2019597688 @default.
W2034262161 cites W2026401636 @default.
W2034262161 cites W2028748742 @default.
W2034262161 cites W2039542306 @default.
W2034262161 cites W2041407201 @default.
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W2034262161 cites W2062859605 @default.
W2034262161 cites W2068559407 @default.
W2034262161 cites W2073619391 @default.
W2034262161 cites W2079485494 @default.
W2034262161 cites W2080399904 @default.
W2034262161 cites W2086202757 @default.
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W2034262161 cites W2112600715 @default.
W2034262161 cites W2143313443 @default.
W2034262161 cites W2152123134 @default.
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W2034262161 doi "https://doi.org/10.1021/jp404396m" @default.
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