Superoleophobic Surfaces Obtained via Hierarchical Metallic Meshes

Roman Grynyov; Edward Bormashenko; Gene Whyman; Yelena Bormashenko; Albina Musin; Roman Pogreb; Anton Starostin; Viktor Valtsifer; Vladimir Strelnikov; Alex Schechter; Srikanth Kolagatla

doi:10.1021/acs.langmuir.6b00248

Superoleophobic Surfaces Obtained via Hierarchical Metallic Meshes

Roman Grynyov
, Edward Bormashenko
, Gene Whyman
, Yelena Bormashenko
, Albina Musin
, Roman Pogreb
, Anton Starostin
, Viktor Valtsifer
, Vladimir Strelnikov
, Alex Schechter
, Srikanth Kolagatla

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

38 Scopus citations

Abstract

Hierarchical metallic surfaces demonstrating pronounced water and oil repellence are reported. The surfaces were manufactured with stainless-steel microporous meshes, which were etched with perfluorononanoic acid. As a result, a hierarchical relief was created, characterized by roughness at micro- and sub-microscales. Pronounced superoleophobicity was registered with regard to canola, castor, sesame, flax, crude (petroleum), and engine oils. Relatively high sliding angles were recorded for 5 μL turpentine, olive, and silicone oil droplets. The stability of the Cassie-like air trapping wetting state, established with water/ethanol solutions, is reported. The omniphobicity of the surfaces is due to the interplay of their hierarchical relief and surface fluorination.

Original language	English
Pages (from-to)	4134-4140
Number of pages	7
Journal	Langmuir
Volume	32
Issue number	17
DOIs	https://doi.org/10.1021/acs.langmuir.6b00248
State	Published - 3 May 2016

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10.1021/acs.langmuir.6b00248

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title = "Superoleophobic Surfaces Obtained via Hierarchical Metallic Meshes",

abstract = "Hierarchical metallic surfaces demonstrating pronounced water and oil repellence are reported. The surfaces were manufactured with stainless-steel microporous meshes, which were etched with perfluorononanoic acid. As a result, a hierarchical relief was created, characterized by roughness at micro- and sub-microscales. Pronounced superoleophobicity was registered with regard to canola, castor, sesame, flax, crude (petroleum), and engine oils. Relatively high sliding angles were recorded for 5 μL turpentine, olive, and silicone oil droplets. The stability of the Cassie-like air trapping wetting state, established with water/ethanol solutions, is reported. The omniphobicity of the surfaces is due to the interplay of their hierarchical relief and surface fluorination.",

author = "Roman Grynyov and Edward Bormashenko and Gene Whyman and Yelena Bormashenko and Albina Musin and Roman Pogreb and Anton Starostin and Viktor Valtsifer and Vladimir Strelnikov and Alex Schechter and Srikanth Kolagatla",

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doi = "10.1021/acs.langmuir.6b00248",

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AU - Grynyov, Roman

AU - Bormashenko, Edward

AU - Whyman, Gene

AU - Bormashenko, Yelena

AU - Musin, Albina

AU - Pogreb, Roman

AU - Starostin, Anton

AU - Valtsifer, Viktor

AU - Strelnikov, Vladimir

AU - Schechter, Alex

AU - Kolagatla, Srikanth

PY - 2016/5/3

Y1 - 2016/5/3

N2 - Hierarchical metallic surfaces demonstrating pronounced water and oil repellence are reported. The surfaces were manufactured with stainless-steel microporous meshes, which were etched with perfluorononanoic acid. As a result, a hierarchical relief was created, characterized by roughness at micro- and sub-microscales. Pronounced superoleophobicity was registered with regard to canola, castor, sesame, flax, crude (petroleum), and engine oils. Relatively high sliding angles were recorded for 5 μL turpentine, olive, and silicone oil droplets. The stability of the Cassie-like air trapping wetting state, established with water/ethanol solutions, is reported. The omniphobicity of the surfaces is due to the interplay of their hierarchical relief and surface fluorination.

AB - Hierarchical metallic surfaces demonstrating pronounced water and oil repellence are reported. The surfaces were manufactured with stainless-steel microporous meshes, which were etched with perfluorononanoic acid. As a result, a hierarchical relief was created, characterized by roughness at micro- and sub-microscales. Pronounced superoleophobicity was registered with regard to canola, castor, sesame, flax, crude (petroleum), and engine oils. Relatively high sliding angles were recorded for 5 μL turpentine, olive, and silicone oil droplets. The stability of the Cassie-like air trapping wetting state, established with water/ethanol solutions, is reported. The omniphobicity of the surfaces is due to the interplay of their hierarchical relief and surface fluorination.

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JO - Langmuir

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Superoleophobic Surfaces Obtained via Hierarchical Metallic Meshes

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