Advanced Spinel Ferrite Nanocomposites For Electromagnetic Interference Shielding Applications
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Advanced Spinel Ferrite Nanocomposites for Electromagnetic Interference Shielding Applications
Advanced Spinel Ferrite Nanocomposites for Electromagnetic Interference Shielding Applications presents recent developments in advanced spinel ferrite nanocomposites for electromagnetic interference shielding, including microwave absorption applications. The book includes the basics of shielding mechanisms, synthesis of advanced nanocomposites, and characterization, as well as results analysis. It also discusses the relationship between nanocomposite structure and physical properties. The book systematically explores how spinel ferrite nanoparticle composites are utilized with polymer, carbon source materials (carbon nanotube, graphene, etc.), metal nanoparticles, metal oxide nanoparticles, hard ferrite nanoparticles, glass, rubber, wood, fabrics/textiles, and cement/concrete in the development of advanced spinel ferrite nanocomposites for electromagnetic interference shielding application. Academics, scientists, engineers, students, and industrial researchers will find this book beneficial. - Provides an overview of recent developments on advanced spinel ferrite nanocomposites for electromagnetic interference shielding - Outlines fundamental concepts of electromagnetic shielding mechanisms in nanocomposites - Explores the design of a variety of nanocomposites, discussion on their structure and physical properties, used for electromagnetic shielding applications
Material Science for Future Applications
Materials Science for Future Applications: Emerging Development and Future Perspectives offers an overview of the materials used for progressive energy systems, such as solar cells, luminescent energy, sensors and detectors and energy storage devices. Today’s worldwide energy and materials production is going through important changes, which are developing novel prospects. These developments and innovative technologies are changing the way energy is manufactured, transported and spent. The materials emphasis in this book conveys a new perspective and highlights the many challenges that are often overlooked in other literature. An understanding of these challenges can be critical when working with new energy material technologies. Particular devotion is given to the key materials and their conversion productivity, extensive duration of permanency, materials expenses and energy materials sustainability. Materials Science for Future Applications offers a comprehensive introduction for students and researchers, in both academia and industry, who are interested in understanding the properties of emerging materials and their challenges.
Advanced Radiation Shielding Materials
Advanced Radiation Shielding Materials: Radiation and Radiological Protection provides an in-depth evaluation of the different types of radiation (x-rays, gamma rays, neutron, UV and EMI) and the development of radiation shielding materials that can be exploited for designing and use in multiple applications. The book also presents a review of the process parameters necessary to develop radiation shielding materials which will assist in the ongoing research to optimize and enhance processes such as the use of 3D orienting and CVD to create efficient radiation shielding material. This book will play a pivotal role and opens new avenues for global research and development by providing an understanding of the mechanisms of radiation shielding and bringing these concepts to application using different materials. - Provides comprehensive information on how to develop and characterize advanced radiation shielding materials using current state-of-the-art technologies - Analyzes and compares experimental data on the physical parameters of advanced radiation shielding materials - Presents the latest knowledge on radiation shielding materials for various applications, including space, healthcare, and nuclear energy - Discusses environmental, ethical, and medical guidelines related to the use of advanced radiation shielding materials