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Nanostructured Composite Layers of Mussel Adhesive Protein and Ceria Nanoparticles

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Division of Surface and Corrosion Science, Department of Chemistry, School of Chemical Sciences, Royal Institute of Technology, SE-100 44 Stockholm, Sweden
Chemistry, Materials and Surfaces, SP Technical Research Institute of Sweden, Box 5607, SE-114 86 Stockholm, Sweden
*Tel: +46 8 790 9905. E-mail: [email protected]
Cite this: Langmuir 2013, 29, 30, 9551–9561
Publication Date (Web):July 1, 2013
https://doi.org/10.1021/la401693x
Copyright © 2013 American Chemical Society
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Abstract

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Mussel adhesive proteins are known for their high affinity to a range of different surfaces, and they therefore appear as ideal candidates for producing thin inorganic–organic composite films with high robustness. In this work we explore the possibility of making cohesive films utilizing layer-by-layer deposition of the highly positively charged mussel adhesive protein, Mefp-1, and negatively charged ceria nanoparticles. This particular material combination was chosen due to recent findings that such films provide good corrosion protection. Quartz crystal microbalance with dissipation monitoring (QCM-D) was used for following the film formation process in situ on silica surfaces. A close to linear growth of the film with number of deposited layers was found for up to 18 deposition steps, the highest number of depositions investigated in this work. The Mefp-1 concentration during film deposition affected the film properties, where a higher protein concentration resulted in a stiffer film. It was also found that the added mass could be amplified by using a Mefp-1 solution containing small aggregates. The surface nanomechanical properties of dried multilayer films were investigated using peak force QNM (quantitative nanomechanical mapping) in air. Homogeneous surface coverage was found under all conditions explored, and the Young’s modulus of the outer region of the coating increased when a higher Mefp-1 concentration was used during film deposition. The nature of the outermost surface layer was found to significantly affect the surface nanomechanical properties. The abrasion resistance of the coating was measured by using controlled-force contact mode AFM.

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Dynamic light scattering data from the Mefp-1 solutions. This material is available free of charge via the Internet at http://pubs.acs.org.

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