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Biomaterials and Tissue Engineering
This contributed volume covers all fundamental principles for researchers and professionals interested in the field of Biomaterials and Tissue Engineering, an interdisciplinary field of research with contributions from biomedical scientists, engineers, and physicians. With a strong focus on biomaterials and scaffolds, the book also covers testing and evaluation pathways for in vitro and in vivo studies. This book also presents a broad range of topics including fundamentals of 3D printing and bioprinting, followed by contemporary technology used in tissue engineering applications as well as currently available biomaterials suitable for tissue repair and regeneration. This volume provides information on: (i) why humans need biomaterials, especially in medical applications, (ii) different types of tissue engineering strategies, and (iii) modeling, characterization, and evaluation of outputs of those strategies. This book is a reference material in the field of tissue engineering, and it is very useful for bachelor, M.Sc., and Ph.D. students, researchers, academics, medical, industry, and healthcare professionals from diverse backgrounds.
Advances in Composite Materials for Medicine and Nanotechnology
Due to their good mechanical characteristics in terms of stiffness and strength coupled with mass-saving advantage and other attractive physico-chemical properties, composite materials are successfully used in medicine and nanotechnology fields. To this end, the chapters composing the book have been divided into the following sections: medicine, dental and pharmaceutical applications; nanocomposites for energy efficiency; characterization and fabrication, all of which provide an invaluable overview of this fascinating subject area. The book presents, in addition, some studies carried out in orthopedic and stomatological applications and others aiming to design and produce new devices using the latest advances in nanotechnology. This wide variety of theoretical, numerical and experimental results can help specialists involved in these disciplines to enhance competitiveness and innovation.
Nanomaterials
This edited book, Nanomaterials - Toxicity and Risk Assessment, is a collection of current research and information on numerous advances on the toxicity and hazardous effects of nanomaterials, including theoretical and experimental approaches as well as nanotechnology applications in the field of medicine, pharmacology, and the manufacture of nanoscale materials. Based on the large number of nanomaterial applications, a careful understanding of the associated systemic and local toxicity is critically required.
Nanotechnology for Sustainable Agriculture, Food and Environment
Nanotechnology has the potential to drastically transform the agri-food sector with its significant applications to improve agricultural productivity and the efficiency of agrochemicals. The food sector has benefitted from the inclusion of nanoparticles in food matrixes and the nanoencapsulation of nutraceuticals. Smart packaging materials designed with the help of nanotechnology have been used for increasing the shelf life of stored food products. Nanomaterials have been extensively used for the delivery of important agrochemicals to enhance their bioefficacy, prevent their degradation, and control their release. Various nanomaterials have been explored for remediation of arising environmen...
Nanomaterials from Renewable Resources for Emerging Applications
Nanomaterials from Renewable Resources for Emerging Applications details developments in nanomaterials produced from renewable materials and their usage in food and packaging, energy conservation, and environmental applications. • Introduces fundamentals of nanomaterials from renewable resources, including processing and characterization. • Covers nanomaterials for applications in food and packaging, including nanocellulose, lignin- and chitosan-based nanomaterials, and nanostarch. • Discusses applications in energy conservation, such as supercapacitors, electrolyte membranes, energy storage devices, and insulation. • Describes environmental uses such as water remediation and purification and oil spill clean-ups. • Highlights advantages and challenges in commercialization of green nanoparticle-based materials. Equally beneficial to researchers and professionals, this book is aimed at readers across materials science and engineering, chemical engineering, chemistry, and related fields interested in sustainable engineering.
Polymeric Biomaterials
Biomaterials include a versatile group of molecules that have been designed to interact with biological systems for various applications and polymeric biomaterials are being designed based on their availability and compatibility. This book summarizes fabrication techniques, features, usage, and promising applications of polymeric biomaterials in diversified areas including advantageous industrial applications. Each chapter exclusively covers a distinct application associated with major classes of polymeric biomaterials. Features: Provides platform related to fabrication and advancement of all categories of polymeric biomaterials Explores advancement of pertinent biomedical and drug delivery systems Includes wide range of biomaterials and its application in diversified fields Gives out environmental justification of green biopolymers and their applications in water remediation Discusses advanced applications of bio-composite polymers viz. food packaging and anti-corrosive coatings This book is aimed at researchers in Polymer Sciences, Biomaterials, Chemical/Bio Engineering, Materials Chemistry, and Biotechnology.
Nanostructures for Cancer Therapy
Nanostructures for Cancer Therapy discusses the available preclinical and clinical nanoparticle technology platforms and their impact on cancer therapy, including current trends and developments in the use of nanostructured materials in chemotherapy and chemotherapeutics. In particular, coverage is given to the applications of gold nanoparticles and quantum dots in cancer therapies. In addition to the multifunctional nanomaterials involved in the treatment of cancer, other topics covered include nanocomposites that can target tumoral cells and the release of antitumoral therapeutic agents. The book is an up-to-date overview that covers the inorganic and organic nanostructures involved in the...
Advanced Materials for a Sustainable Environment
This book summarizes recent and critical aspects of advanced materials for environmental protection and remediation. It explores the various development aspects related to environmental remediation, including design and development of novel and highly efficient materials, aimed at environmental sustainability. Synthesis of advanced materials with desirable physicochemical properties and applications is covered as well. Distributed across 13 chapters, the major topics covered include sensing and elimination of contaminants and hazardous materials via advanced materials along with hydrogen energy, biofuels, and CO2 capture technology. Discusses the development in design of synthesis process and materials with sustainable approach. Covers removal of biotic and abiotic wastes from the aqueous systems. Includes hydrogen energy and biofuels under green energy production. Explores removal of environmental (soil and air) contaminants with nanomaterials. Reviews advanced materials for environmental remediation in both liquid and gas phases.
Nanostructures for Novel Therapy
Nanostructures for Novel Therapy: Synthesis, Characterization and Applications focuses on the fabrication and characterization of therapeutic nanostructures, in particular, synthesis, design, and in vitro and in vivo therapeutic evaluation. The chapters provide a cogent overview of recent therapeutic applications of nanostructured materials that includes applications of nanostructured materials for wound healing in plastic surgery and stem cell therapy. The book explores the promise for more effective therapy through the use of nanostructured materials, while also assessing the challenges their use might pose from both an economic and medicinal point of view. This innovative look at how nano...
Characterization Techniques for Nanomaterials
Manipulation of matter at the nanoscale level is the key factor in nanotechnology, and it is considered as a great driving force behind the current industrial revolution since it offers facile and feasible remedies for many problems. Because of the unique characteristic properties of nanomaterials, they can be employed in a wide variety of fields such as agriculture and food technology, catalysis, biomedical applications, tissue culture engineering, and fertilizers. In this regard, characterization of nanomaterials plays a significant role in determining their optical, thermal, and physicochemical properties. Many techniques have been used in nanomaterial characterization, and the most impor...
