Cooperativity of Catechols and Amines in High-Performance Dry/Wet Adhesives.

Angewandte Chemie
Brylee David B TiuPhillip B Messersmith

Abstract

The outstanding adhesive performance of mussel byssal threads has inspired materials scientists over the past few decades. Exploiting the amino-catechol synergy, polymeric pressure-sensitive adhesives (PSAs) have now been synthesized by copolymerizing traditional PSA monomers, butyl acrylate and acrylic acid, with mussel-inspired lysine- and aromatic-rich monomers. The consequences of decoupling amino and catechol moieties from each other were compared (that is, incorporated as separate monomers) against a monomer architecture in which the catechol and amine were coupled together in a fixed orientation in the monomer side chain. Adhesion assays were used to probe performance at the molecular, microscopic, and macroscopic levels by a combination of AFM-assisted force spectroscopy, peel and static shear adhesion. Coupling of catechols and amines in the same monomer side chain produced optimal cooperative effects in improving the macroscopic adhesion performance.

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Citations

Dec 9, 2020·Journal of Materials Chemistry. B, Materials for Biology and Medicine·Yuchen ZhangXiaojin Zhang
Nov 21, 2020·Nanomaterials·Alexandra Mavridi-PrinteziMarco Montalti
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Jan 7, 2021·ACS Applied Materials & Interfaces·Kyueui LeePhillip B Messersmith
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Jan 21, 2022·ACS Applied Materials & Interfaces·George D DegenPhillip B Messersmith

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