Ying Zhu scite author profile

Hierarchical micropapillae and nanofolds are known to exist on the petals' surfaces of red roses. These micro-and nanostructures provide a sufficient roughness for superhydrophobicity and yet at the same time a high adhesive force with water. A water droplet on the surface of the petal appears spherical in shape, which cannot roll off even when the petal is turned upside down. We define this phenomenon as the "petal effect" as compared with the popular "lotus effect". Artificial fabrication of biomimic polymer films, with well-defined nanoembossed structures obtained by duplicating the petal's surface, indicates that the superhydrophobic surface and the adhesive petal are in Cassie impregnating wetting state.

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Stable, Superhydrophobic, and Conductive Polyaniline/Polystyrene Films for Corrosive Environments

Zhu

Zhang

Zheng

et al. 2006

Adv Funct Materials

331

213

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A polyaniline/polystyrene composite film with a lotus‐leaf‐like structure is prepared via a simple electrospinning method. The film shows stable superhydrophobicity and conductivity, even in many corrosive solutions, such as acidic or basic solutions over a wide pH range, and also in oxidizing solutions. The special surface composition and morphology are the two important aspects that induce such unusual properties. The polystyrene content can strongly influence the morphology of the composite films, which thus display different superhydrophobicities and conductivities.

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Ying Zhu

Petal Effect: A Superhydrophobic State with High Adhesive Force

Stable, Superhydrophobic, and Conductive Polyaniline/Polystyrene Films for Corrosive Environments

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