Gecko-Inspired Surfaces: A Path to Strong and Reversible Dry Adhesives

The amazing adhesion of gecko pads to almost any kind of surfaces has inspired a very active research direction over the last decade: the investigation of how geckos achieve this feat and how this knowledge can be turned into new strategies to reversibly join surfaces. This article reviews the fabri...

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Bibliographic Details
Published in:Advanced materials (Weinheim) 2010-05, Vol.22 (19), p.2125-2137
Main Authors: Boesel, Luciano F., Greiner, Christian, Arzt, Eduard, del Campo, Aránzazu
Format: Article
Language:English
Subjects:
Adhesives - chemistry
Dry adhesion
Fibrillar surfaces
Gecko adhesion
Nanofibers - chemistry
Nanofibers - ultrastructure
Patterned surfaces
Polymers - chemistry
Surface Properties
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Summary:The amazing adhesion of gecko pads to almost any kind of surfaces has inspired a very active research direction over the last decade: the investigation of how geckos achieve this feat and how this knowledge can be turned into new strategies to reversibly join surfaces. This article reviews the fabrication approaches used so far for the creation of micro‐ and nanostructured fibrillar surfaces with adhesive properties. In the light of the pertinent contact mechanics, the adhesive properties are presented and discussed. The decisive design parameters are fiber radius and aspect ratio, tilt angle, hierarchical arrangement and the effect of the backing layer. Also first responsive systems that allow thermal switching between nonadhesive and adhesive states are described. These structures show a high potential of application, providing the remaining issues of robustness, reliability, and large‐area manufacture can be solved. The structure of gecko toe pads has inspired recent studies on micro‐ and nanofibrillar surfaces as potential dry adhesives. This article reviews the fabrication approaches that have been used so far, and analyzes the role of the different design parameters in the final adhesion performance.
ISSN:0935-9648
1521-4095
DOI:10.1002/adma.200903200