Role of protein aggregate structure on the strength and underwater performance of barnacle-inspired adhesives
Michael C. Wilson, Maryssa Beasley, Kenan P. Fears, Elizabeth A. Yates, Christopher R. So
Abstract
500 kPa bond strength underwater throughout extended immersion and thermal degradation testing, while the non-amyloid adhesive weakened by up to 80%. As freestanding gels, higher temperature processing improved underwater stability for all the protein materials, with amyloid-rich structures remaining mostly water-insoluble after 30 days submerged in water. Protein-based adhesives with a controlled aggregate structure shed light on the ability of amyloid-containing materials to remain adhered underwater, a necessary trait for the survival of many organisms.
Topics & Concepts
BarnacleAggregate (composite)UnderwaterAdhesiveMaterials scienceComposite materialGeologyEcologyBiologyOceanographyLarvaLayer (electronics)Polymer Surface Interaction StudiesMicroplastics and Plastic PollutionEnzyme Production and Characterization