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Literature DB >> 17279635

Preparation of superhydrophobic silicon oxide nanowire surfaces.

Yannick Coffinier¹, Sébastien Janel, Ahmed Addad, Ralf Blossey, Léon Gengembre, Edmond Payen, Rabah Boukherroub.

Abstract

The paper reports on the preparation of superhydrophobic amorphous silicon oxide nanowires (a-SiONWs) on silicon substrates with a contact angle greater than 150 degrees by means of surface roughness and self-assembly. Nanowires with an average mean diameter in the range 20-150 nm and 15-20 microm in length were obtained by the so-called solid-liquid-solid (SLS) technique. The porous nature and the high roughness of the resulting surfaces were confirmed by AFM imaging. The superhydrophobicity resulted from the combined effects of surface roughness and chemical modification with fluorodecyl trichlorosilane.

Entities: Chemical Disease

Mesh：

Substances：
Oxides
Silicon

Year: 2007 PMID： 17279635 DOI： 10.1021/la063345p

Source DB: PubMed Journal: Langmuir ISSN： 0743-7463 Impact factor: 3.882

Keyword Cloud
Cited

5 in total

1. Novel galvanic nanostructures of Ag and Pd for efficient laser desorption/ionization of low molecular weight compounds.

Authors: Yuliya E Silina; Florian Meier; Valeriy A Nebolsin; Marcus Koch; Dietrich A Volmer
Journal: J Am Soc Mass Spectrom Date: 2014-05 Impact factor: 3.109

Preparation of superhydrophobic silicon oxide nanowire surfaces.

1. Novel galvanic nanostructures of Ag and Pd for efficient laser desorption/ionization of low molecular weight compounds.

2. Temperature-induced coalescence of colliding binary droplets on superhydrophobic surface.

3. Organic Monolayers by B(C₆F₅)₃-Catalyzed Siloxanation of Oxidized Silicon Surfaces.

4. Coalescence, Spreading, and Rebound of Two Water Droplets with Different Temperatures on a Superhydrophobic Surface.

5. ZnO nanorod array-coated mesh film for the separation of water and oil.

Preparation of superhydrophobic silicon oxide nanowire surfaces.

1. Novel galvanic nanostructures of Ag and Pd for efficient laser desorption/ionization of low molecular weight compounds.

2. Temperature-induced coalescence of colliding binary droplets on superhydrophobic surface.

3. Organic Monolayers by B(C6F5)3-Catalyzed Siloxanation of Oxidized Silicon Surfaces.

4. Coalescence, Spreading, and Rebound of Two Water Droplets with Different Temperatures on a Superhydrophobic Surface.

5. ZnO nanorod array-coated mesh film for the separation of water and oil.

3. Organic Monolayers by B(C₆F₅)₃-Catalyzed Siloxanation of Oxidized Silicon Surfaces.