Chaoyi Peng scite author profile

Superhydrophobicity is a remarkable evolutionary adaption manifested by several natural surfaces. Artificial superhydrophobic coatings with good mechanical robustness, substrate adhesion and chemical robustness have been achieved separately. However, a simultaneous demonstration of these features along with resistance to liquid impalement via high-speed drop/jet impact is challenging. Here, we describe all-organic, flexible superhydrophobic nanocomposite coatings that demonstrate strong mechanical robustness under cyclic tape peels and Taber abrasion, sustain exposure to highly corrosive media, namely aqua regia and sodium hydroxide solutions, and can be applied to surfaces through scalable techniques such as spraying and brushing. In addition, the mechanical flexibility of our coatings enables impalement resistance to high-speed drops and turbulent jets at least up to ~35 m s and a Weber number of ~43,000. With multifaceted robustness and scalability, these coatings should find potential usage in harsh chemical engineering as well as infrastructure, transport vehicles and communication equipment.

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Preparation and anti-icing of superhydrophobic PVDF coating on a wind turbine blade

Peng

Xing

Yuan

et al. 2012

Applied Surface Science

124

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A superhydrophobic coating harvesting mechanical robustness, passive anti-icing and active de-icing performances

Cui

Jiang

et al. 2021

Journal of Colloid and Interface Science

181

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Structural investigation of composite wind turbine blade considering structural collapse in full-scale static tests

Jiang

Peng

Xiao

et al. 2013

Composite Structures

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Chaoyi Peng

All-organic superhydrophobic coatings with mechanochemical robustness and liquid impalement resistance

Preparation and anti-icing of superhydrophobic PVDF coating on a wind turbine blade

A superhydrophobic coating harvesting mechanical robustness, passive anti-icing and active de-icing performances

Structural investigation of composite wind turbine blade considering structural collapse in full-scale static tests

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