Bioinspired Materials is devoted to publish constructive peer-reviewed, open access, cutting-edge articles from a wide range of related research fields in a fast-tracking online system. The Bioinspired Materials aims to be a research platform where worldwide researchers can submit and/or follow the...
Bio‐Inspired, Smart, Multiscale Interfacial Materials In this review a strategy for the design of bioinspired, smart, multiscale interfacial (BSMI) materials is presented and put into context with recent progr... F Xia,J Lei - 《Advanced Materials》 被引量: 1104发表: 2010年 Tough, bio-...
《Bio-Inspired Materials》(Ulisses Targino Bezerra,Heber Sivini Ferreira,Normando Perazzo Barbosa)内容简介: Nature has provided opportunities for scientists to observe patterns in biomaterials which can be ...
these materials develop the majority of their toughening during crack growth, not during crack initiation. As a prime example, nacre consists of 95 vol.% of layered aragonite (CaCO 3 ) platelets bonded by a thin layer of organic material, but yet exhibits a toughness (in ...
Science China Materials(2024) Hydroxyapatite Gradient Poly (Vinyl Alcohol)/Bacteria Cellulose Bone Scaffold via Buoyancy-Driven Gradient Method Quanchao Zhang Huiwen Wang Yizao Wan Fibers and Polymers(2024) Week-long normoglycaemia in diabetic mice and minipigs via a subcutaneous dose of a glucose-...
The way forward towards its applications also faces bottlenecks in the construction of multi-scale interconnected pores. Recently, various synthesis methods have been developed for the preparation of hierarchically porous materials4. The most popular approach to fabricate macropores (>50 nm) uses sel...
Such bio-inspired materials, whose pore sizes decrease across multiple scales and finally terminate in size-invariant units like plant stems, leaf veins and vascular and respiratory systems provide hierarchical branching and precise diameter ratios for connecting multi-scale pores from macro to micro ...
Bio-Inspired Textiles (BIT) is an interdisciplinary research project combining biology, materials science, and textile design disciplines. We are exploring how bio-informed textiles (also known as biomimicry) can enhance current sustainable and circula
The notion of mimicking natural structures in the synthesis of new structural materials has generated enormous interest but has yielded few practical advances. Natural composites achieve strength and toughness through complex hierarchical designs that are extremely difficult to replicate synthetically. We emul...
Here, we describe the conception of two strategies based on bio-inspired materials, aimed at myocardial repair after MI. In the first strategy, alginate biomaterial was designed with affinity-binding moieties, enabling the binding of heparin-binding proteins and their controlled presentation and ...