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    Intrinsic Surface-Drying Properties of Bioadhesive Proteins

    Year: 2014

    Journal: Angewandte Chemie International Edition, Volume 53, Issue 42, pages 11253–11256, October 13, 2014, 20141017

    Authors: Dr. Yasar Akdogan , Dr. Wei Wei , Dr. Kuo-Ying Huang , Dr. Yoshiyuki Kageyama , Eric W. Danner , Dusty R. Miller , Nadine R. Martinez Rodriguez , Prof. Dr. J. Herbert Waite  and Prof. Dr. Songi Han 

    Last authors: Songi Han

    Organizations: 1 Department of Chemistry and Biochemistry, University of California Santa Barbara, Santa Barbara, CA 93106 (USA) 2 İzmir Institute of Technology, Department of Materials Science and Engineering, İzmir, 35430 (Turkey) 3 Department of Molecular, Cellular, and Developmental Biology, University of California Santa Barbara, Santa Barbara, CA 93106 (USA) 4 Department of Chemistry, Faculty of Science, Hokkaido University, Sappora 060-0810 (Japan)

    Country: USA, United States of America, Japan, Turkey

    Sessile marine mussels must “dry” underwater surfaces before adhering to them. Synthetic adhesives have yet to overcome this fundamental challenge. Previous studies of bioinspired adhesion have largely been performed under applied compressive forces, but such studies are poor predictors of the ability of an adhesive to spontaneously penetrate surface hydration layers. In a force-free approach to measuring molecular-level interaction through surface-water diffusivity, different mussel foot proteins were found to have different abilities to evict hydration layers from surfaces—a necessary step for adsorption and adhesion. It was anticipated that DOPA would mediate dehydration owing to its efficacy in bioinspired wet adhesion. Instead, hydrophobic side chains were found to be a critical component for protein–surface intimacy. This direct measurement of interfacial water dynamics during force-free adsorptive interactions at solid surfaces offers guidance for the engineering of wet adhesives and coatings.