Sebastian Dehe scite author profile

Wetting transition on superhydrophobic surfaces is commonly described as an abrupt jump between two stable stateseither from Cassie to Wenzel for nonhierarchical surfaces or from Cassie to nano-Cassie on hierarchical surfaces. We here experimentally study the electrowetting of hierarchical superhydrophobic surfaces composed of multiple length scales by imaging the light reflections from the gas–liquid interface. We present the existence of a continuous set of intermediate states of wetting through which the gas–liquid interface transitions under a continuously increasing external forcing. This transition is partially reversible and is limited only by localized Cassie to Wenzel transitions at nanodefects in the structure. In addition, we show that even a surface containing many localized wetted regions can still exhibit extremely low contact angle hysteresis, thus remaining useful for many heat transfer and self-cleaning applications. Expanding the classical definition of the Cassie state in the context of hierarchical surfaces, from a single state to a continuum of metastable states ranging from the centimeter to the nanometer scale, is important for a better description of the slip properties of superhydrophobic surfaces and provides new considerations for their effective design.

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Electro-osmotic flow enhancement over superhydrophobic surfaces

Dehe

Rofman

Bercovici

et al. 2020

Phys. Rev. Fluids

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Hydrodynamic dispersion in Hele-Shaw flows with inhomogeneous wall boundary conditions

2021

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Controlling the electrostatic Faraday instability using superposed electric fields

et al. 2022

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Deformation modes of an oil-water interface under a local electric field: From Taylor cones to surface dimples

Dehe

Hardt

2021

Phys. Rev. Fluids

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Sebastian Dehe

Intermediate States of Wetting on Hierarchical Superhydrophobic Surfaces

Electro-osmotic flow enhancement over superhydrophobic surfaces

Hydrodynamic dispersion in Hele-Shaw flows with inhomogeneous wall boundary conditions

Controlling the electrostatic Faraday instability using superposed electric fields

Deformation modes of an oil-water interface under a local electric field: From Taylor cones to surface dimples

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