Dual-Energy-Barrier Stable Superhydrophobic Structures for Long Icing Delay
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Abstract
Using superhydrophobic surfaces (SHSs) with the water-repellent Cassie-Baxter (CB) state is widely acknowledged as an effective approach for anti-icing performances. Nonetheless, the CB state is susceptible to diverse physical phenomena (e.g., vapor condensation, gas contraction, etc.) at low temperatures, resulting in the transition to the sticky Wenzel state and the loss of anti-icing capabilities. SHSs with various micronanostructures have been empirically examined for enhancing the CB stability; however, the energy barrier transits from the metastable CB state to the stable Wenzel state and thus the CB stability enhancement is currently not enough to guarantee a well and appliable anti-icing performance at…
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109
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Authors
9Topics & keywords
Topics
Keywords
- Icing
- Metastability
- Materials science
- Nanotechnology
- Chemical physics
- Activation barrier
- Chemistry
- Physics
UN Sustainable Development Goals
- Affordable and clean energy
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