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Smart Biomimetic Coatings: Design, Properties and Biomedical Applications summarizes vital research in multifunctional (i.e., anti-corrosion, anti-fouling, and self-cleaning properties) surface coatings in various applications such as orthopedic and dental implants, tissue engineering, sensors and more. The book introduces biomimetic coatings, aiding understanding of highly complicated architectures in natural composites, along with discussions on the importance of proper mimicking to achieve composite materials with exceptional performance. The synthesis and unique properties of smart biomimetic coatings are detailed before a wide selection of biomedical applications is explored. This is an important reference of interest to researchers and R&D groups working in materials science, biomedical engineering, tissue engineering, and implant design. - Covers core principles, methods of synthesis, unique properties, and the pros and cons of biomimetic materials for coatings - Reviews a broad range of biomedical applications for biomimetic coatings, from drug delivery and sensors to anti-corrosion and orthopedics - Combines the principles of engineering, materials science, chemistry, and biology to provide an interdisciplinary overview of smart biomimetic coatings in biomedicine
Antiviral and Antimicrobial Smart Coatings: Fundamentals and Applications provides a critical analysis of all types of smart antiviral and antimicrobial coatings currently being researched. The book opens with a discussion of the microbial and viral pathogens, including how to identify them and their interaction with surfaces. The next three sections look at the concept of smart coatings, specifically antibacterial, antifungal, and antiviral smart coatings, types, effects, and applications. The book concludes by discussing the methods and standards for characterization of coatings and then presents several real world case studies. A valuable resource for those working in the smart coatings field. Introduces the concepts of smart coatings and the synthesis, characterization, and classification Provides insights into the pros and cons of established processes and thereby provides guidance on how to select the appropriate techniques for specific applications Discusses the process of applying smart antimicrobial and antiviral coatings on various surfaces Presents the methods for characterization of smart and multifunctional coatings
Advances In Smart Coatings And Thin Films For Future Industrial and Biomedical Engineering Applications discusses in detail, the recent trends in designing, fabricating and manufacturing of smart coatings and thin films for future high-tech. industrial applications related to transportation, aerospace and biomedical engineering. Chapters cover fundamental aspects and diverse approaches used to fabricate smart self-healing anti-corrosion coatings, shape-memory coatings, polymeric and nano-bio-ceramic cotings, bio-inspired and stimuli-responsive coatings for smart surfaces with antibacterial activkity and controlled wettability, and electrically conductive coatings and their emerging applications. With the emphasis on advanced methodologies and recent emerging applications of smart multifunctional coatings and thin films, this book is essential reading for materials scientists and rsearchers working in chemical sciences, advanced materials, sensors, pharmaceutical and biomedical engineering. - Discusses the most recent advances and innovations in smart multifunctional coatings and thin films in the transportation, aerospace and biomedical engineering industries - Highlights the synthesis methods, processing, testing and characterization of smart coatings and thin films - Reviews the current prospects and future trends within the industry
This book covers all the recent advancements and technologies developed for encapsulated corrosion inhibitors-based coatings by using eco-benign and sustainable encapsulated smart coatings based on self-healing functionality. It includes overview of properties and applicability of encapsulated inhibitors, methodologies to detect corrosion, and recent developments made in the field of corrosion science to study the inhibition potential of encapsulated corrosion inhibitors for eco-benign smart coatings in several corrosive systems. Features: Covers encapsulation of the corrosion inhibitor which explores the self-healing mechanism of the smart coatings. Includes encapsulated corrosion inhibitor fabrication, synthesis, modeling, functionalization, classification, characteristics, and so forth. Reviews effectiveness and significant constraints of scale-up engineering. Discusses the fundamental characteristics of industrial-scale application research for encapsulated corrosion inhibitors. Explores entire aspects of encapsulated corrosion inhibitors-based sustainable smart coatings in one place. This book is aimed at researchers and graduate students of corrosion engineering, surface engineering, and chemistry engineering.
The book contains six chapters and covers topics dealing with biomedical applications of titanium alloys, surface treatment, relationships between microstructure and mechanical and technological properties, and the effect of radiation on the structure of the titanium alloys.
Oxide semiconductors, including titanium dioxide (TiO2), are increasingly being considered as replacements for silicon in the development of the next generation of solar cells. Oxide Semiconductors for Solar Energy Conversion: Titanium Dioxide presents the basic properties of binary metal oxide semiconductors and the performance-related properties
Understand functional coatings and their role in three key industries of the future Functional coatings play a huge range of roles in industries from automotive to aerospace to electronic and beyond. They offer protection, performance enhancement, corrosion resistance, self-cleaning properties, and more. Recent developments in the field have allowed for ever more precise optimization of functional coatings, with the result that demand for these key tools is only likely to increase. Functional Coatings for Biomedical, Energy, and Environmental Applications offers a comprehensive overview of these coatings and their applications in three explosively productive industries. A team of expert contributors provides chapters analyzing the latest developments in this growing area of production, with a particular focus on the dynamic relationship between functional coatings and their many applications. The result is an interdisciplinary text which will serve as an essential resource for researchers and industry professionals worldwide. Readers will also find: Analysis of functional coatings for dental implants, pool boilers, solar cells, and many more Detailed discussion of coating properties including superhydrophobicity, self-cleaning, controlled drug release, and more Key contributions to the great environmental challenges of the twenty-first century This book is a must-own for researchers in chemistry, engineering, energy, materials science, and more, as well as for industry professionals working with coating and other aspects of research and development in biomedical, energy, or environmental industries.
This book presents for the first time, the scattered novel results that have been achieved in very recent years in study on various thin calcium phosphate coatings produced by very diverse techniques. The comparison of thin calcium phosphate coatings with the thick plasma-sprayed ones is also included in the book. Readers will find a comprehensive book reviewing the state-of-the-art of the field with critical assessment of the achievements of the different preparation techniques.
Green manufacturing has developed into an essential aspect of contemporary manufacturing practices, calling for environmentally friendly and sustainable techniques. Implementing successful green manufacturing processes not only improves business efficiency and competitiveness but also reduces harmful production in the environment. The Handbook of Research on Green Engineering Techniques for Modern Manufacturing provides emerging perspectives on the theoretical and practical aspects of green industrial concepts, such as green supply chain management and reverse logistics, for the sustainable utilization of resources and applications within manufacturing and engineering. Featuring coverage on a broad range of topics such as additive manufacturing, integrated manufacturing systems, and machine materials, this publication is ideally designed for engineers, environmental professionals, researchers, academicians, managers, policymakers, and graduate-level students seeking current research on recent and sustainable practices in manufacturing processes.
This book covers the properties of biomaterials that have found wide clinical applications, while also reviewing the state-of-the-art in the development towards future medical applications, starting with a brief introduction to the history of biomaterials used in hip arthroplasty. The book then reviews general types of biomaterials – polymers, ceramics, and metals, as well as different material structures such as porous materials and coatings and their applications – before exploring various current research trends, such as biodegradable and porous metals, shape memory alloys, bioactive biomaterials and coatings, and nanometals used in the diagnosis and therapy of cancer. In turn, the book discusses a range of methods and approaches used in connection with biomaterial properties and characterization – chemical properties, biocompatibility, in vivo behaviour characterisation, as well as genotoxicity and mutagenicity – and reviews various diagnostic techniques: histopathological analysis, imagining techniques, and methods for physicochemical and spectroscopic characterization. Properties of stent deployment procedures in cardiovascular surgeries, from aspects of prediction, development and deployment of stent geometries are presented on the basis of novel modelling approaches. The last part of the book presents the clinical applications of biomaterials, together with case studies in dentistry, knee and hip prosthesis. Reflecting the efforts of a multidisciplinary team of authors, gathering chemical engineers, medical doctors, physicists and engineers, it presents a rich blend of perspectives on the application of biomaterials in clinical practice. The book will provide clinicians with an essential review of currently available solutions in specific medical areas, also incorporating non-medical solutions and standpoints, thus offering them a broader selection of materials and implantable solutions. This work is the result of joint efforts of various academic and research institutions participating in WIMB Tempus project, 543898-TEMPUS-1-2013-1-ES-TEMPUS-JPHES, "Development of Sustainable Interrelations between Education, Research and Innovation at WBC Universities in Nanotechnologies and Advanced Materials where Innovation Means Business", co-funded by the Tempus Programme of the European Union.