Results 241 to 250 of about 7,406 (272)
Some of the next articles are maybe not open access.
The Journal of Physical Chemistry Letters
It is common sense that the droplet is stickier to substrates with larger solid-liquid contact areas. Here, we report that this intuitive trend reverses for hollowed micropillars, where a decrease in solid-liquid contact area caused by an increase in the pore size of a pillar top leads to an increase in the droplet depinning force.
Youhua Jiang, Yilian Xiao, Chuanqi Wei
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It is common sense that the droplet is stickier to substrates with larger solid-liquid contact areas. Here, we report that this intuitive trend reverses for hollowed micropillars, where a decrease in solid-liquid contact area caused by an increase in the pore size of a pillar top leads to an increase in the droplet depinning force.
Youhua Jiang, Yilian Xiao, Chuanqi Wei
openaire +2 more sources
Wetting and Superhydrophobicity
Langmuir, 2009This article is written to serve as an introduction to the topic of “Wetting and Superhydrophobicity” and to give some perspective for the papers that follow. This area of research that impacts and overlaps many fields of science and technology has been identifiable for centuries, but has gained considerable traction in the past decade.
Gao, LC, McCarthy, TJ, Zhang, X
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2015
Superhydrophobic polymers are particularly attractive materials, as they combine low cost, ease of processing, and compatibility with a variety of applications. Surfaces that display the Cassie–Baxter wetting state are particularly attractive for their self-cleaning properties.
Crawford, Russell J., Ivanova, Elena P.
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Superhydrophobic polymers are particularly attractive materials, as they combine low cost, ease of processing, and compatibility with a variety of applications. Surfaces that display the Cassie–Baxter wetting state are particularly attractive for their self-cleaning properties.
Crawford, Russell J., Ivanova, Elena P.
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Superhydrophobicity-memory surfaces prepared by a femtosecond laser
Chemical Engineering Journal, 2020Yao Fang, Jingzhou Zhang, Jiale Yong
exaly
2014
Superhydrophobic materials have low affinity for water and are extremely difficult to wet. They can be prepared by surface texturing to introduce a hierarchical structure with features at both the microscale and nanoscale combined with a layer of a fluorinated compounds.
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Superhydrophobic materials have low affinity for water and are extremely difficult to wet. They can be prepared by surface texturing to introduce a hierarchical structure with features at both the microscale and nanoscale combined with a layer of a fluorinated compounds.
openaire +1 more source

