Transparent Metasurfaces Counteracting Fogging by Harnessing Sunlight
Christopher Walker, Efstratios Mitridis, Thomas Kreiner, Hadi Eghlidi,, Thomas M. Schutzius, Dimos Poulikakos

TL;DR
This paper presents sunlight-activated metasurfaces that passively prevent fogging on transparent surfaces by inducing localized heating, outperforming traditional coatings in delaying fog formation and reducing defogging time.
Contribution
It introduces a novel sunlight-absorbing metasurface design that passively delays fogging and enhances visibility, surpassing existing anti-fogging coatings.
Findings
Reduces defogging time by up to four times.
Inhibits condensate nucleation under supersaturated conditions.
Maintains transparency while actively managing fog formation.
Abstract
Surface fogging is a common phenomenon that can have significant and detrimental effects on surface transparency and visibility. It affects the performance in a wide range of applications including windows, windshields, electronic displays, cameras, mirrors, and eyewear. A host of ongoing research is aimed at combating this problem by understanding and developing stable and effective anti-fogging coatings that are capable of handling a wide range of environmental challenges "passively" without consumption of electrical energy. Here we introduce an alternative approach employing sunlight to go beyond state-of-the-art techniques---such as superhydrophilic and superhydrophobic coatings---by rationally engineering solar absorbing metasurfaces that maintain transparency, while upon illumination, induce localized heating to significantly delay the onset of surface fogging or decrease…
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