2022
DOI: 10.1002/admi.202200435
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Superhydrophobic Materials: Versatility and Translational Applications

Abstract: the emergence of bionics. Although it has only been around for ≈60 years, bionics has undeniably spread to and revolutionized almost every aspect of human life. Special wettability, one of the most common phenomena in nature, was described as early as in 1805 with Young's equation. [1] However, it was not until 1976 that the term "superhydrophobicity" was first introduced to describe the particle coating of hydrophobic fumed silicon dioxide, on which water droplets remained spherical and the adhesion force was… Show more

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Cited by 33 publications
(30 citation statements)
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“…In the category of super‐wettability, superhydrophobicity is a phenomenon and a notable progressive adaption established by several biological and natural surfaces like lotus leaves, pond skater legs, butterfly wings and more [5] . Simultaneously, some of the natural phenomena are associated to superhydrophobicity of biological materials including structural colour, anisotropic wetting, low fluid friction, antifogging, anti‐reflection and directional adhesion properties [6] . The origin of extreme water repellence, i. e., hydrophobicity in the naturally occurring materials stems from micro/nanoscale hierarchical textures with finely encapsulated low surface energy moieties [7,8] .…”
Section: Introductionmentioning
confidence: 99%
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“…In the category of super‐wettability, superhydrophobicity is a phenomenon and a notable progressive adaption established by several biological and natural surfaces like lotus leaves, pond skater legs, butterfly wings and more [5] . Simultaneously, some of the natural phenomena are associated to superhydrophobicity of biological materials including structural colour, anisotropic wetting, low fluid friction, antifogging, anti‐reflection and directional adhesion properties [6] . The origin of extreme water repellence, i. e., hydrophobicity in the naturally occurring materials stems from micro/nanoscale hierarchical textures with finely encapsulated low surface energy moieties [7,8] .…”
Section: Introductionmentioning
confidence: 99%
“…There are several synthetic routes involving chemical modification via covalent and non‐covalent protocols, along with physical techniques which lead to the creation of self‐cleaning materials. There are several theoretical, experimental and industrial groups focusing on mimicking bio‐inspired artificial superhydrophobic materials offering exciting potentials in self‐cleaning, anti‐icing, anti‐fouling, fluid transport, water collection, biological fluid‐repellent surfaces and oil‐water separation applications [5,6,8,10–19] …”
Section: Introductionmentioning
confidence: 99%
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