2020
DOI: 10.1002/adem.202001037
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Adaptive Wettability of a Programmable Metasurface

Abstract: Inspired by bionics and natural phenomena, the adaptable wettability of solid surfaces is receiving more and more interest. For example, self-cleaning of super-hydrophobic leaves, like the lotus leaf, is adapted to functional surfaces for new technologies and applications. [1-4] In general, there are two main approaches to adjust the wettability of solid surfaces: either by changing chemical composition, or by adapting the morphology of the surface. [5,6] In nature, lotus leaves achieve their unique wetting be… Show more

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Cited by 14 publications
(8 citation statements)
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“…As the last example, a macroscopic prototype of a unit cell for programmable wetting was produced. Normally such cells are roughly 100 µm high to work properly [59]. Nevertheless, a macroscopic prototype can be easily tested and scaled-down in a possible next step.…”
Section: Resultsmentioning
confidence: 99%
“…As the last example, a macroscopic prototype of a unit cell for programmable wetting was produced. Normally such cells are roughly 100 µm high to work properly [59]. Nevertheless, a macroscopic prototype can be easily tested and scaled-down in a possible next step.…”
Section: Resultsmentioning
confidence: 99%
“…For example, digital recognition functions have been realized through single mechanical actuators (Liu et al, 2023); as well as directly embodying the key elements of computing power and intelligence, namely, perception, decision-making and command, directly in the mechanical field, thus getting rid of the tradition of additional computers and large electronic devices rely (Zhang et al, 2023). There are multitudinous other ways of external driving force programming ( Nick et al, 2020), such as actuator programming to achieve tunable hydrophobicity (Specht et al, 2020), electric field-driven programming for achieving tunable Young's modulus (Singh et al, 2021), Tunable stress-strain curves realized by hydraulic-driven programming (Zhang et al, 2018), tunable stiffness and deformable metamaterials .…”
Section: Other Programming Strategiesmentioning
confidence: 99%
“…Photonic micro-and nano-structuring of substrates is often carried out to achieve control of their hydrophilicity. [45][46][47][48][49][50] In general, two wetting states are possible for a sessile water drop in contact with a structured surface in air: i) a so-called Wenzel state, [51] and ii) a Cassie-Baxter state. [52,53] The main difference between the two of them is that, for the Wenzel state, water molecules can diffuse into the roughness interstitials, thus increasing the wetted surface with respect to the un-patterned flat area.…”
Section: Solubility and Engineering Of The Hydrophobicitymentioning
confidence: 99%