Fabrication of superhydrophobic surfaces on zinc substrates

Wenguo Xu; Tao Ning; Xiaochan Yang; Shixiang Lu

doi:10.1016/j.apsusc.2010.12.059

Fabrication of superhydrophobic surfaces on zinc substrates

Wenguo Xu^*, Tao Ning, Xiaochan Yang, Shixiang Lu

^*Corresponding author for this work

Ministry of Education in China

Research output: Contribution to journal › Article › peer-review

33 Citations (Scopus)

Abstract

Stable superhydrophobic surfaces were fabricated on the zinc substrates through simple silver replacement deposition process with the modification of octadecyl mercaptan. The effects of reaction conditions on the surface morphology and wettability of the prepared surfaces were carefully studied. The results show that the fabrication of a best superhydrophobic surface depends largely on the moderate reactant concentration. When the concentration of AgNO ₃ solution was 2 mmol/L, the zinc substrate was covered by a dendritic outline structure. Aggregated silver nanoparticles were formed on the substrate in accordance with some certain laws, exhibiting great surface roughness. The typical hierarchical micro-nanostructures, flower-like structures and porous structures also could be found from the SEM images. The maximal water contact angle (CA) value of about 161 ± 2°, and the minimal sliding angle (SA) of about 2° were obtained under the same reaction condition.

Original language	English
Pages (from-to)	4801-4806
Number of pages	6
Journal	Applied Surface Science
Volume	257
Issue number	11
DOIs	https://doi.org/10.1016/j.apsusc.2010.12.059
Publication status	Published - 15 Mar 2011
Externally published	Yes

Keywords

Superhydrophobic
Surface morphology
Water contact angle

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10.1016/j.apsusc.2010.12.059

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title = "Fabrication of superhydrophobic surfaces on zinc substrates",

abstract = " Stable superhydrophobic surfaces were fabricated on the zinc substrates through simple silver replacement deposition process with the modification of octadecyl mercaptan. The effects of reaction conditions on the surface morphology and wettability of the prepared surfaces were carefully studied. The results show that the fabrication of a best superhydrophobic surface depends largely on the moderate reactant concentration. When the concentration of AgNO 3 solution was 2 mmol/L, the zinc substrate was covered by a dendritic outline structure. Aggregated silver nanoparticles were formed on the substrate in accordance with some certain laws, exhibiting great surface roughness. The typical hierarchical micro-nanostructures, flower-like structures and porous structures also could be found from the SEM images. The maximal water contact angle (CA) value of about 161 ± 2°, and the minimal sliding angle (SA) of about 2° were obtained under the same reaction condition.",

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AU - Xu, Wenguo

AU - Ning, Tao

AU - Yang, Xiaochan

AU - Lu, Shixiang

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Y1 - 2011/3/15

N2 - Stable superhydrophobic surfaces were fabricated on the zinc substrates through simple silver replacement deposition process with the modification of octadecyl mercaptan. The effects of reaction conditions on the surface morphology and wettability of the prepared surfaces were carefully studied. The results show that the fabrication of a best superhydrophobic surface depends largely on the moderate reactant concentration. When the concentration of AgNO 3 solution was 2 mmol/L, the zinc substrate was covered by a dendritic outline structure. Aggregated silver nanoparticles were formed on the substrate in accordance with some certain laws, exhibiting great surface roughness. The typical hierarchical micro-nanostructures, flower-like structures and porous structures also could be found from the SEM images. The maximal water contact angle (CA) value of about 161 ± 2°, and the minimal sliding angle (SA) of about 2° were obtained under the same reaction condition.

AB - Stable superhydrophobic surfaces were fabricated on the zinc substrates through simple silver replacement deposition process with the modification of octadecyl mercaptan. The effects of reaction conditions on the surface morphology and wettability of the prepared surfaces were carefully studied. The results show that the fabrication of a best superhydrophobic surface depends largely on the moderate reactant concentration. When the concentration of AgNO 3 solution was 2 mmol/L, the zinc substrate was covered by a dendritic outline structure. Aggregated silver nanoparticles were formed on the substrate in accordance with some certain laws, exhibiting great surface roughness. The typical hierarchical micro-nanostructures, flower-like structures and porous structures also could be found from the SEM images. The maximal water contact angle (CA) value of about 161 ± 2°, and the minimal sliding angle (SA) of about 2° were obtained under the same reaction condition.

KW - Superhydrophobic

KW - Surface morphology

KW - Water contact angle

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DO - 10.1016/j.apsusc.2010.12.059

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SP - 4801

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JO - Applied Surface Science

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Fabrication of superhydrophobic surfaces on zinc substrates

Abstract

Keywords

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