Robust technique allowing the manufacture of superoleophobic (omniphobic) metallic surfaces

Anton Starostin; Viktor Valtsifer; Vladimir Strelnikov; Edward Bormashenko; Roman Grynyov; Yelena Bormashenko; Alexander Gladkikh

doi:10.1002/adem.201300561

Robust technique allowing the manufacture of superoleophobic (omniphobic) metallic surfaces

Anton Starostin, Viktor Valtsifer, Vladimir Strelnikov, Edward Bormashenko, Roman Grynyov, Yelena Bormashenko, Alexander Gladkikh

Department of Chemical Engineering

Ariel University

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

Abstract

Omniphobic metallic surfaces obtained with a robust two-stage process are reported. The surfaces demonstrate high apparent contact angles accompanied with a low contact angle hysteresis for a variety of liquids, including water, diidomethane, canola, castor, silicone oils, and crude petroleum oil. The superoleophobicity was achieved by fluorination of the nano-rough aluminum surfaces under treatment with perfluorononanoic acid, as established by TOF-SIMS spectrometry. The stability of the Cassie wetting regime was investigated. The critical surface tension of a liquid corresponding to the onset of wetting transitions was established experimentally.

Original language	English
Pages (from-to)	1127-1132
Number of pages	6
Journal	Advanced Engineering Materials
Volume	16
Issue number	9
DOIs	https://doi.org/10.1002/adem.201300561
State	Published - 1 Sep 2014

All Science Journal Classification (ASJC) codes

Condensed Matter Physics
General Materials Science

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10.1002/adem.201300561

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title = "Robust technique allowing the manufacture of superoleophobic (omniphobic) metallic surfaces",

abstract = "Omniphobic metallic surfaces obtained with a robust two-stage process are reported. The surfaces demonstrate high apparent contact angles accompanied with a low contact angle hysteresis for a variety of liquids, including water, diidomethane, canola, castor, silicone oils, and crude petroleum oil. The superoleophobicity was achieved by fluorination of the nano-rough aluminum surfaces under treatment with perfluorononanoic acid, as established by TOF-SIMS spectrometry. The stability of the Cassie wetting regime was investigated. The critical surface tension of a liquid corresponding to the onset of wetting transitions was established experimentally.",

author = "Anton Starostin and Viktor Valtsifer and Vladimir Strelnikov and Edward Bormashenko and Roman Grynyov and Yelena Bormashenko and Alexander Gladkikh",

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AU - Starostin, Anton

AU - Valtsifer, Viktor

AU - Strelnikov, Vladimir

AU - Bormashenko, Edward

AU - Grynyov, Roman

AU - Bormashenko, Yelena

AU - Gladkikh, Alexander

PY - 2014/9/1

Y1 - 2014/9/1

N2 - Omniphobic metallic surfaces obtained with a robust two-stage process are reported. The surfaces demonstrate high apparent contact angles accompanied with a low contact angle hysteresis for a variety of liquids, including water, diidomethane, canola, castor, silicone oils, and crude petroleum oil. The superoleophobicity was achieved by fluorination of the nano-rough aluminum surfaces under treatment with perfluorononanoic acid, as established by TOF-SIMS spectrometry. The stability of the Cassie wetting regime was investigated. The critical surface tension of a liquid corresponding to the onset of wetting transitions was established experimentally.

AB - Omniphobic metallic surfaces obtained with a robust two-stage process are reported. The surfaces demonstrate high apparent contact angles accompanied with a low contact angle hysteresis for a variety of liquids, including water, diidomethane, canola, castor, silicone oils, and crude petroleum oil. The superoleophobicity was achieved by fluorination of the nano-rough aluminum surfaces under treatment with perfluorononanoic acid, as established by TOF-SIMS spectrometry. The stability of the Cassie wetting regime was investigated. The critical surface tension of a liquid corresponding to the onset of wetting transitions was established experimentally.

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DO - 10.1002/adem.201300561

M3 - مقالة

SN - 1438-1656

VL - 16

SP - 1127

EP - 1132

JO - Advanced Engineering Materials

JF - Advanced Engineering Materials

IS - 9

ER -

Robust technique allowing the manufacture of superoleophobic (omniphobic) metallic surfaces

Abstract

All Science Journal Classification (ASJC) codes

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