Junyan Cai scite author profile

Until now, scalable fabrication and utilization of superamphiphobic surfaces based on sophisticated structures has remained challenging. Herein, we develop an applicable superamphiphobic surface with nano-Ni pyramid/ micro-Cu cone structures prepared by cost-effective electrochemical deposition. More importantly, excellent dynamic wettability is achieved, exhibiting as ultralow sliding angle (∼0°), multiple droplets rebounding (13 times), and a total rejection. The supportive cushions trapped within the dualscale micro/nanostructures is proved to be the key factor contributing to such high liquid repellency, whose existence is intuitively ascertained at both solid−air−liquid and water−solid−oil systems in this work. In addition, the enduring reliability of the wetting performance under various harsh conditions further endows the surface with broader application prospects.

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Grafting of PMMA brushes layer on Cu surface to create a stable superhydrophobic surface

Zhang

Cai

2016

Applied Surface Science

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Fabrication of superamphiphobic Cu surfaces using hierarchical surface morphology and fluorocarbon attachment facilitated by plasma activation

Cai

Wang

Hao

et al. 2019

Applied Surface Science

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Junyan Cai

Chemical grafting of the superhydrophobic surface on copper with hierarchical microstructure and its formation mechanism

Applicable Superamphiphobic Ni/Cu Surface with High Liquid Repellency Enabled by the Electrochemical-Deposited Dual-Scale Structure

Grafting of PMMA brushes layer on Cu surface to create a stable superhydrophobic surface

Fabrication of superamphiphobic Cu surfaces using hierarchical surface morphology and fluorocarbon attachment facilitated by plasma activation

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