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This book reveals how polymer blending and grafting now offer a growing range of new applications for advanced films and fibers.
The book Function-oriented bioengineered skin equivalents - continuous development towards complete skin replication aims to provide potential readers with a comprehensive summary of the available information on various in vitro skin models, from historical background to different modeling approaches and their applications. Particular emphasis is placed on presenting the current technological components available for the development of engineered skin equivalents by summarizing advances in cell cultivation, materials science, and bioengineering. Using examples of the current-state-of-art, we describe the advantages, limitations, and challenges of developing in vitro skin models for successful use in clinical applications and skin-related research.
This book focuses on both production and extraction aspects of Polyhydroxyalkanoates (PHAs) for their commercialization purpose.
A systematic review of each fiber's properties is given, the emphasis is placed on the water sorption capacity, the fiber's surface potential, and fibrillation properties.
This is the first concise book that includes different aspects of naturally-derived components for wound healing. After a short introduction into modern solutions in wound-care and modern techniques in wound-dressing development, the authors, leaders in the field, explore natural-based components (drugs, extracts, materials etc.);
They emphasize the great efforts that have been made to synthesize new bio-based polymers or additives or to replace glass fibers by natural fibers in composites. The flame retardancy of biobased polymers, the flame retardancy of natural fibers composites, and the synthesis and efficiency of biobased flame retardants.
The brief gives a comprehensive overview of the polysaccharide applications in the field of battery materials.
Written by an academic and industry insider, this book provides an informed study on polysaccharide structural analysis and characterization.
In this work, the synthesis of several materials are studied: nanoclay-cement nanocomposite, calcined nanoclay-cement nanocomposite, untreated & treated hemp fabric-reinforced cement composite, hemp fabric-reinforced nanoclay-cement nanocomposite and treated hemp fabric-reinforced nanoclay-cement nanocomposite.
This book provides the tools to understand the issues related to bio-based concretes using lime as binder. Themes covered include specific properties of lignocellulosic aggregates (density, porosity, size distribution, water absorption, microstructure, soluble components under alkaline conditions), hardening of lime-based binders by carbonation and hydration (natural and curing processes) and microstructure of the binder in the vicinity of aggregates (dense or porous interphase). The mechanical (uniaxial and triaxial compression) and insulating properties of the relatively well-known hemp concretes and the novel rice husk concretes are also reviewed. Finally, a detailed and comprehensive description of the tools and methodologies that make it easier the design of such bio-based concretes is discussed. Written for students as well as researchers, this book is aimed at individuals working in both academic and industrial fields.
The authors describe how silicone surfaces were chosen because silicone exhibits excellent biocompatible properties and is already being used for medical implants such as catheters, breast implants, prosthetics etc.
This brief provides a comprehensive review of lignocellulosic materials and their primary role in the future development of bio-based packaging. Topics such as: sources and extraction methods of lignocellulosic materials; main constituents of lignocellulosic materials; incorporation of lignocellulosic materials in bio-based packaging materials;
It aims to provide the key definitions to understand the issues related to interface modifications in natural fibre based composites considering the particular supramolecular and micro- structures encountered in plant fibres.
This brief explores polysaccharides, the most abundant family of naturally occurring polymers, and explains how they have gained considerable attention in recent decades as a source of innovative bio-based materials.
This book provides an excellent introduction into polysaccharide-based supercapacitors. Written by an international team of leading academics, this brief is aimed at a variety of readers with an interest in polysaccharide science and its applications.
This brief critically reviews the structure and applications of polysaccharide based materials as a green and sustainable resource in water and water treatment operations.
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