Bioinspired Underwater Adhesives by Using the Supramolecular Toolbox

Anton H. Hofman; Ilse A. van Hees; J. Yang; Marleen Kamperman

doi:10.1002/adma.201704640

Bioinspired Underwater Adhesives by Using the Supramolecular Toolbox

Anton H. Hofman, Ilse A. van Hees, J. Yang, Marleen Kamperman

Polymer Science

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

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Abstract

Nature has developed protein‐based adhesives whose underwater performance has attracted much research attention over the last few decades. The adhesive proteins are rich in catechols combined with amphiphilic and ionic features. This combination of features constitutes a supramolecular toolbox, to provide stimuli‐responsive processing of the adhesive, to secure strong adhesion to a variety of surfaces, and to control the cohesive properties of the material. Here, the versatile interactions used in adhesives secreted by sandcastle worms and mussels are explored. These biological principles are then put in a broader perspective, and synthetic adhesive systems that are based on different types of supramolecular interactions are summarized. The variety and combinations of interactions that can be used in the design of new adhesive systems are highlighted.

Original language	English
Article number	1704640
Number of pages	38
Journal	Advanced materials
Volume	30
Issue number	19
DOIs	https://doi.org/10.1002/adma.201704640
Publication status	Published - 10-May-2018

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title = "Bioinspired Underwater Adhesives by Using the Supramolecular Toolbox",

abstract = "Nature has developed protein‐based adhesives whose underwater performance has attracted much research attention over the last few decades. The adhesive proteins are rich in catechols combined with amphiphilic and ionic features. This combination of features constitutes a supramolecular toolbox, to provide stimuli‐responsive processing of the adhesive, to secure strong adhesion to a variety of surfaces, and to control the cohesive properties of the material. Here, the versatile interactions used in adhesives secreted by sandcastle worms and mussels are explored. These biological principles are then put in a broader perspective, and synthetic adhesive systems that are based on different types of supramolecular interactions are summarized. The variety and combinations of interactions that can be used in the design of new adhesive systems are highlighted.",

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AB - Nature has developed protein‐based adhesives whose underwater performance has attracted much research attention over the last few decades. The adhesive proteins are rich in catechols combined with amphiphilic and ionic features. This combination of features constitutes a supramolecular toolbox, to provide stimuli‐responsive processing of the adhesive, to secure strong adhesion to a variety of surfaces, and to control the cohesive properties of the material. Here, the versatile interactions used in adhesives secreted by sandcastle worms and mussels are explored. These biological principles are then put in a broader perspective, and synthetic adhesive systems that are based on different types of supramolecular interactions are summarized. The variety and combinations of interactions that can be used in the design of new adhesive systems are highlighted.

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Bioinspired Underwater Adhesives by Using the Supramolecular Toolbox

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