Nacre-inspired nanocomposites produced using layer-by-layer assembly: Design strategies and biomedical applications

abstract

Biomimetics constitutes an attractive strategy for the development of new functional materials in a variety of fields. Nacre is a natural composite composed of 95% aragonite and 5% organic materials with a layered and hierarchical structure which has be shown to have high toughness and mechanical strength and resistance. As such, mimicking nacre's composition and structure can be the key for the development of new materials with increased mechanical properties and stability. This review focuses on recent developments achieved in the production of nacre-like nanocomposites using the layer-by-layer deposition technique. This technique was chosen due to its ability to create nanostructured layered structures with thickness controlled at the nanoscale level using a wide range of different materials. Several examples of nacre-inspired designs of multilayer nanocomposites are overviewed, and their possible applications are discussed, in particular in the biomedical field. (C) 2017 Elsevier B.V. All rights reserved.

keywords

MECHANICAL-PROPERTIES; BIOMIMETIC DESIGN; BIOACTIVE GLASS; CHRONIC WOUNDS; MULTILAYER; COMPOSITES; SURFACES; BEHAVIOR; BIOMATERIALS; COATINGS

subject category

Materials Science

authors

Rodrigues, JR; Alves, NM; Mano, JF

our authors

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