Laser processing of natural mussel adhesive protein thin films

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Abstract

A novel laser processing technique is presented for depositing mussel adhesive protein thin films. Synthetic adhesives (e.g., acrylics, cyanoacrylates, epoxies, phenolics, polyurethanes, and silicones) have largely displaced natural adhesives in the automotive, aerospace, biomedical, electronic, and marine equipment industries over the past century. However, rising concerns over the environmental and health effects of solvents, monomers, and additives used in synthetic adhesives have led the adhesives community to seek natural alternatives. Marine mussel adhesive protein is a formaldehyde-free natural adhesive that demonstrates excellent adhesion to several classes of materials, including pure metals, metal oxides, polymers, and glasses. We have demonstrated the deposition of Mytilus edulis foot protein-1 thin films using matrix assisted pulsed laser evaporation (MAPLE). The Fourier transform infrared spectrum data suggest that the matrix assisted pulsed laser evaporation process does not cause significant damage to the chemical structure of M. edulis foot protein-1. In addition, matrix assisted pulsed laser evaporation appears to provide a better control over film thickness and film roughness than conventional solvent-based thin film processing techniques. MAPLE-deposited mussel adhesive protein thin films have numerous potential electronic, medical, and marine applications.

Keywords

Mussel adhesive protein
Matrix assisted pulsed laser evaporation
Thin films

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