Synthetic Engineering Materials And Nanotechnology
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Synthetic Engineering Materials and Nanotechnology
Synthetic Engineering Materials and Nanotechnology covers the latest research and developments of synthetic processes, materials, applications and technologies. In addition, innovations in synthetic engineering materials techniques are analyzed. Each chapter addresses key concepts, properties and applications of important categories of synthetic materials, including metals alloys, polymers, composites, rubbers, oils and foams. Advances in nanomaterials produced by synthetic engineering methods are also considered, including ceramic, carbon, metal oxide, composite, and membrane-derived nanomaterials. The primary synthetic engineering materials techniques covered include thermo-mechanical, chemical, physiochemical, electrochemical, bottom-up, hybrid and biological methods. This book is suitable for early career researchers in academia and R&D in areas such as materials science and engineering, mechanical engineering and chemical engineering. - Provides the fundamentals on materials produced through synthetic engineering methods, including their properties, experimental and characterization techniques, and applications - Reviews the advances of synthetic engineering methods for nanomaterials applications, including electrospinning, atomic layer deposition, ion implantation, bottom-up, hybrid strategies, and more - Includes numerous, real-world examples and case studies to apply the fundamental concepts to experiments and real-world applications
Nanotechnology and Functional Materials for Engineers
Nanotechnology and Functional Materials for Engineers focuses on key essentials and examples across the spectrum of nanomaterials as applied by engineers, including nanosensors, smart nanomaterials, nanopolymers, and nanotubes. Chapters cover their synthesis and characteristics, production methods, and applications, with specific sections exploring nanoelectronics and electro-optic nanotechnology, nanostructures, and nanodevices. This book is a valuable resource for interdisciplinary researchers who want to learn more about how nanomaterials are used in different types of engineering, including electrical, chemical, and biomedical. - Offers in-depth information on a variety of nanomaterials and how they are used for different engineering applications - Provides an overview of current research and suggests how this will impact future applications - Explores how the unique properties of different nanomaterials make them particularly suitable for specific applications
Polymers for Pharmaceutical and Biomedical Applications
Polymers for Pharmaceutical and Biomedical Applications: Fundamentals, Selection, and Preparation supports the successful selection, design, and development of polymers with the required properties and performance for a range of advanced pharmaceutical and biomedical applications. The book begins by introducing polymers for pharmaceutical and biomedical applications, examining classification, basic properties, structures, and grades. This is followed by in-depth chapters focusing on synthesis and modification, characterization techniques, and dissolution and solubility of polymers for pharmaceutical applications. Key applications are then highlighted, with chapters explaining in detail the preparation of polymers for conventional dosage, modified drug delivery, conjugates, advanced drug and gene delivery, medical devices, pharmaceutical packaging, tissue engineering, artificial organs, and dentistry. Throughout the book, the aim is to provide accessible, step-by-step coverage, supported by diagrams and case studies. Finally, safety and regulatory aspects are discussed. This is a valuable resource for all those who are newly approaching the field of polymers and product development for pharmaceutical and biomedical applications. This includes researchers and advanced students across polymer science, pharmaceutical science, biomaterials, biomedicine, healthcare, and chemistry, and scientists and R&D professionals in an industrial setting. - Explains fundamental concepts relating to the synthesis, modification, and characterization of polymers - Guides the reader towards successful selection of polymer systems for specific target applications - Addresses key challenges in this field that are supported by case studies and regulatory information