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This book provides an overview of recent research in the area of advanced materials for improving human healthcare, protecting the environment and alternative energy resources. The authors analyze and deliver viable technical solutions, demonstrating how chemistry and engineering can collectively solve technical and societal challenges. The book explores innovative technology for the synthesis of complex carbohydrates & glycoproteins, new drug development & delivery, theragnostics of infectious disease and cancer. It also provides insights into the nature of energy extraction, management and usage related to fossil fuels and sustainable energy. The book brings together a group of dynamic and productive scientists, engineers, and other professionals in celebration of the 40th Anniversary of Chinese American Chemical Society. It is a valuable resource for all readers interested in the study of materials to address society's increasing need for electrical and chemical energy.
Advanced materials for energy and environmental applications (such as rapid heating, anti-fouling/anti-virus surface, chemical sensor, textile/stretchable sensor, fuel cell, and lithium-ion batteries) have been extensively investigated in the academic and industrial fields. The advent of cabon-based nano-materials (carbon nanotubes, graphene, and carbon black) and inonganic nano-materials (Ag wire/particles, Cu mesh, and transition metal dichalcogenide) has accelerated research interest in energy and environmental applications. This book is focused on the emerging concept and improvement of energy and environmental basic research, as well as in the characterization and analysis of novel energy and environmental base materials. The contents of the book are as below: - Theoretical and experimental studies on advanced conducting nanocomposites; - Electrical properties of nanocomposites under various conditions (dynamic mode, aspect ratio, alignment, and contents) and its applications; - Advanced material for energy applications; - Analysis and materials for environmental applications.
"Multidisciplinary Science and Advanced Technologies form a vast and diverse class of the engineering science and research divisions. This book discusses novel design techniques and smart mechanisms, as well as innovations that might be utilized in the future. Scientific modification can control industrial-scale assembly, a process that ultimately provides specific material function, depending on electronic development for advancements. Furthermore, the combination of supramolecular multidisciplinary technologies allows for the exploration of application-based materials. Smart materials are vital for the in-depth analysis of various morphologies. This book is an international forum for comprehensive soft-condensed matter physics, nanoscience principles, nanotechnology tools, and nanotechnology applications in the environmental, energy, and electronics sector, including a discussion of ethical issues in these fields. This book reviews the applications and market potential of a variety of media, including mirror, glazing, and display products, such as low-information content displays for banners and labels. The physicist, chemical engineer, materials scientist, nanotechnologist, and biologist at all levels, as well as academicians for unique device-based applications in various fields, will benefit from this book. Readers will gain an understanding of the practical and highly sensitive business fields for specific disciplinarians. The goal is to provide readers a broad review from a materials perspective, so that teachers can provide a comprehensive review of this technology to students. This book also highlights the entire gamut of smart engineering technologies and the materials design process of fabrications from past to present and future perspectives. The syllabi of various technical universities and research institutes are examined, explaining the basic perceptions of this emerging field. In science today, the major focus of research and development in synthetic materials and spectroscopic analysis broadly deals with materials on the atomic and molecular scales. The vision for the future is to move beyond these already existing applications and explore new realms of electronic applications"--
Advanced materials are engineered to exhibit novel properties that confer superior performance in comparison with conventional materials. The performance of advanced materials is associated with toughness, hardness, and durability that can be used for high technological applications such as semiconductors, biomaterials, smart materials, or nanomaterials. Advanced Materials: Production, Characterization and Multidisciplinary Applications is focused on novel approaches for production of graphene and other 2D materials along with characterization techniques, discussing a wide range of applications in multidisciplinary areas of science and engineering. It provides a guiding light in the production, synthesis, and characterization of advanced materials by implementing appropriate techniques. The book has a multidisciplinary approach covering applications in electronics (sensors), engineering, biotechnology, medical (e.g., cancer treatment, drug delivery, cellular imaging), and biomedical (smart implants, drug delivery, and DIY health testing kits) fields. The authors cover the primary information of advanced and other 2D materials related to their production or synthesis via various methods, ranging from conventional to non‐conventional – such as lithography, photolithography (computer chips), electron beam lithography, etching, atomic layer deposition, chemical vapor deposition, hydrothermal process, and electrospinning, along with some comparative investigations. It also covers a comparison study over the current and future perspectives of advanced and other 2D materials. This book is aimed at researchers, academics, and professionals who are interested in understanding the novel approaches for synthesis of advanced materials.
Advanced materials are the basis of modern science and technology. This proceedings volume presents a broad spectrum of studies of novel materials covering their processing techniques, physics, mechanics, and applications. The book is concentrated on nanostructures, ferroelectric crystals, materials and composites, materials for solar cells and also polymeric composites. Nanotechnology approaches, modern piezoelectric techniques and also latest achievements in materials science, condensed matter physics, mechanics of deformable solids and numerical methods are presented. Great attention is devoted to novel devices with high accuracy, longevity and extended possibilities to work in wide temperature and pressure ranges, aggressive media etc. The characteristics of materials and composites with improved properties opening new possibilities of various physical processes, in particular transmission and receipt of signals under water, are described.
Nano-Engineering at Functional Interfaces for Multi-disciplinary Applications: Electrochemistry, Photoplasmonics, Antimicrobials, and Anticancer Applications provides a comprehensive overview of the fundamentals and latest advances of nano-engineering strategies for the design, development, and fabrication of novel nanostructures for different applications in the fields of photoplasmonics and electrochemistry, as well as antibacterial and anticancer research areas. The book begins with an introduction to the fundamentals and characteristics of nanostructured interfaces and their associated technologies, including an overview of their potential applications in different fields. The following chapters present a thorough discussion of the synthesis, processing, and characterization methods of nanomaterials with unique functionalities suitable for energy harvesting, food and textile applications, electrocatalysis, biomedical applications and more. It then concludes outlining research future directions and potential industrial applications. - Presents the advantages and impact of nano-engineering in technological advances, with up-to-date discussions on their applications - Covers research directions and potential future applications of nano-engineering in industry - Includes case studies that illustrate important processes
The book focuses on joining of advanced materials such as ceramics, intermetallics, laminated materials, composite materials and functional materials considering both in theory and in practice. It also covers details of joint design, weldability and quality assurance of the product. Both principles and engineering practice have been addressed to show advanced, scientific and novelty features. The latest research on advanced joining technology is one of the major features of the book, which is particularly suited for readers who are interested to learn practical solutions in joining of advanced materials. The book can benefit researchers, engineers and graduate students in the fields of joining, materials design and manufacturing, etc.
Sustainable development is a very prevalent concept of modern society. This concept has appeared as a critical force in combining a special focus on development and growth by maintaining a balance of using human resources and the ecosystem in which we are living. The development of new and advanced materials is one of the powerful examples in establishing this concept. Green and sustainable advanced materials are the newly synthesized material or existing modified material having superior and special properties. These fulfil today’s growing demand for equipment, machines and devices with better quality for an extensive range of applications in various sectors such as paper, biomedical, textile, and much more. Volume 2, provides chapters on the valorization of green and sustainable advanced materials from a biomedical perspective as well as the applications in textile technology, optoelectronics, energy materials systems, and the food and agriculture industry.
The design and study of materials is a pivotal component to new discoveries in the various fields of science and technology. By better understanding the components and structures of materials, researchers can increase its applications across different industries. Materials Science and Engineering: Concepts, Methodologies, Tools, and Applications is a compendium of the latest academic material on investigations, technologies, and techniques pertaining to analyzing the synthesis and design of new materials. Through its broad and extensive coverage on a variety of crucial topics, such as nanomaterials, biomaterials, and relevant computational methods, this multi-volume work is an essential reference source for engineers, academics, researchers, students, professionals, and practitioners seeking innovative perspectives in the field of materials science and engineering.
This volume covers the recent advances and research on the modeling and simulation of materials. The primary aim is to take the reader through the mathematical analysis to the theories of electricity and magnetism using multiscale modelling, covering a variety of numerical methods such as finite difference time domain (FDTD), finite element method (FEM) and method of moments. The book also introduces the multiscale Green’s function (GF) method for static and dynamic modelling and simulation results of modern advanced nanomaterials, particularly the two-dimensional (2D) materials. This book will be of interest to researchers and industry professionals working on advanced materials.