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Spinal Ferrite Nanostructures for Energy Storage Devices provide up-to-date coverage of ferrite properties and applications, with a particular focus on electrochemical and electrocatalytic energy storage applications. The book covers the basics of ferrites, including synthesis methods, structures and properties in the first few chapters, focusing on topics such as the properties of ferrites and the electrochemical and electro catalytic energy storage applications of unitary, binary and mixed ferrite nanostructures. Limitations for using ferrites in these devices are also covered. This book is an important reference source for materials scientists and engineers who want to gain a greater understanding of how ferrites are being used to enhance energy storage devices. - Shows how ferrites are being used in a variety of energy storage systems, including electrochemical supercapacitor systems - Discusses how ferrites are being used as an abundantly available, cheaper alternative to their materials for energy storage applications - Evaluates the challenges and limitations of using ferrites for energy storage applications
Spinal Ferrite Nanostructures for Energy Storage Devices provide up-to-date coverage of ferrite properties and applications, with a particular focus on electrochemical and electrocatalytic energy storage applications. The book covers the basics of ferrites, including synthesis methods, structures and properties in the first few chapters, focusing on topics such as the properties of ferrites and the electrochemical and electro catalytic energy storage applications of unitary, binary and mixed ferrite nanostructures. Limitations for using ferrites in these devices are also covered. This book is an important reference source for materials scientists and engineers who want to gain a greater understanding of how ferrites are being used to enhance energy storage devices. Shows how ferrites are being used in a variety of energy storage systems, including electrochemical supercapacitor systems Discusses how ferrites are being used as an abundantly available, cheaper alternative to their materials for energy storage applications Evaluates the challenges and limitations of using ferrites for energy storage applications
Materials for Energy Storage offers a combinatorial understanding of materials science and electrochemistry in electrochemical energy storage devices with a holistic overview of the status, research gaps, and future opportunities. Rooted in a profound understanding of contemporary energy utilization, aligned with the sustainable development goals, this book delves deep into the several device chemistries, impact of nanomaterials, and critical factors related to the device performance. It discusses electrode-electrolyte interaction, device fabrication, and commercial aspects. This book will offer value to the graduate and postgraduate students, researchers, and industry professionals related to materials science and energy technology.
This book explains various methods needed to overcome the challenges faced during environmental remediation with a focus on nanotechnology. The book comprises ten edited chapters that aim to inform and educate readers about recent technologies that are beneficial for pollution control. Starting with an introduction to environmental remediation, the book covers innovative nanomaterials including spinel nanoferrites, carbonaceous quantum dots, carbon nanotubes and nanobioadsorbents. In addition to highlighting the environmental benefits of these materials, the book includes chapters on the potential of nanotechnology for harnessing the environment to generate energy through nanogenerators and piezoelectric energy harvesting devices. Key features of the book include notes on fundamental issues and challenges regarding environmental remediation, easy to read content with pictorial illustrations and scholarly references for each chapter. The book is an informative resource for students and academicians in science, technology and environmental science discipline.
Solution Methods for Metal Oxide Nanostructures reviews solution processes that are used for synthesizing 1D, 2D and 3D metal oxide nanostructures in either thin film or in powder form for various applications. Wet-chemical synthesis methods deal with chemical reactions in the solution phase using precursors at proper experimental conditions. Wet-chemical synthesis routes offer a high degree of controllability and reproducibility for 2D nanomaterial fabrication. Solvothermal synthesis, template synthesis, self-assembly, oriented attachment, hot-injection, and interface-mediated synthesis are the main wet-chemical synthesis routes for 2D nanomaterials. Solution Methods for Metal Oxide Nanostructures also addresses the thin film deposition metal oxides nanostructures, which plays a very important role in many areas of chemistry, physics and materials science.Each chapter includes information on a key solution method and their application in the design of metal oxide nanostructured materials with optimized properties for important applications. The pros and cons of the solution method and their significance and future scope is also discussed in each chapter. Readers are provided with the fundamental understanding of the key concepts of solution synthesis methods for fabricating materials and the information needed to help them select the appropriate method for the desired application. - Reviews the most relevant wet chemical solution methods for metal oxide nanostructures, including sol-gel, solvothermal, hydrothermal, co-precipitation methods, and more - Addresses thin film deposition techniques for metal oxide nanostructures, such as spray-pyrolysis, electrodeposition, spin coating and self-assembly - Discusses the pros and cons of each solution method and its significance and future opportunities
Nanoferrites for Emerging Environmental Applications discusses the synthesis and structure of nanoferrites, as well as their electrical, optical, and magnetic properties. This book also provides a detailed discussion of the use of nanoferrites for various environmental applications, such as for water and air pollution detection and remediation. This book covers almost every aspect of nanoferrites for environmental applications and will be of great use to researchers working in multidisciplinary areas. Nanoferrites' superior electronic, optical, and magnetic properties make them promising agents in a wide spectrum of applications. After looking at the fundamentals of nanoferrites, this book proceeds to analyze their application in a comprehensive range of environmental applications. Topics covered include wastewater treatment, the removal of heavy metal ions, remediation of organic and inorganic pollutants, and their use in the detection and remediation of both air and solid pollution. Future opportunities for research are also addressed. - Focuses on nanoferrite applications for air and water pollution detection, and remediation through purification - Includes detailed synthesis procedures and advanced characterization methods for nanoferrites - Explores ways that nanoferrites can be used in various environmental applications and then be recovered after use
Magnetic Nanoparticles and Polymer Nanocomposites: Fundamentals and Biological, Environmental and Energy Applications focuses on the manufacturing and design of innovative magnetic polymeric nanocomposite materials for a broad range of different applications. These materials have truly outstanding and sustainable properties unlike other composites because they are combined with both organic (polymer matrix) and inorganic (semiconductor nanoparticles) materials to form a sustainable composite material. The book's focus is on magnetic semiconductor and polymer nanocomposites made from bioresorbable and biocompatible polymers, modified with magnetic nanoparticles. This book provides detailed knowledge on the modern research application of magnetic semiconductor and polymeric nanocomposites that have tremendous commercial value. In addition, these nanocomposite materials are also a good source for the renewable energy-based industry. - Covers magnetic nanoparticles and polymer nanocomposites in environmental, renewable energy, water treatment, energy storage and biomedical applications - Provides fundamental knowledge on design, synthesis, properties investigation, applications and manufacturing - Emphasizes recent advances on magnetic nanoparticles and polymer nanocomposites
Nanoparticles are revolutionizing and helping to improve every sector including engineering, medicine, food safety, transportation, energy, and environmental science. To ensure industries take full advantage of the opportunities nanoparticles provide, further study on the advancements and challenges within the field is required. Diversity and Applications of New Age Nanoparticles considers new developments and applications of nanoparticles and addresses the development of new materials, synthesis routes, and emerging research in this field. Covering key topics such as antibiotics, thin films, battery technologies, and composites, this premier reference source is ideal for industry professionals, computer scientists, policymakers, engineers, pharmacists, medical professionals, researchers, scholars, practitioners, instructors, and students.
This book highlights the complexity of spinel nanoferrites, their synthesis, physio-chemical properties and prospective applications in the area of advanced electronics, microwave devices, biotechnology as well as biomedical sciences. It presents an overview of spinel nanoferrites: synthesis, properties and applications for a wide audience: from beginners and graduate-level students up to advanced specialists in both academic and industrial sectors. There are 15 chapters organized into four main sections. The first section of the book introduces the readers to spinel ferrites and their applications in advanced electronics industry including microwave devices, whereas the second section mainly focus on the synthesis strategy and their physio-chemical properties. The last sections of the book highlight the importance of this class of nanomaterials in the field of biotechnology and biomedical sector with a special chapter on water purification.
Oxides for Medical Applications reviews the most important advances of oxides with optical, magnetic and electronic properties for biomedical applications. Owing to their unusual properties, oxides are expected to play a significant role in the prevention or early treatment of diseases. In addition to catalytically active artificial enzymes based on oxide materials—the book provides comprehensive coverage of the most relevant categories of oxide materials and their properties and applications. Since magnetic oxides are used extensively for a wide range of medical applications, there are numerous chapters that address these materials, including LSMO nanoparticles, ferrites, nanocatalysts, and more. Finally, practical considerations for the translation of these materials from the lab to the clinic are reviewed, including biocompatibility and toxicity of oxide nanoparticles, making this a suitable resource for researchers and practitioners in materials science and engineering in academia and the clinic. - Reviews the unique properties and synthesis strategies of oxide materials for medical applications - Provides an overview of the most relevant medical applications of oxide materials such as their use in biosensing, drug delivery, tissue engineering, and more - Discusses practical considerations of the commercial translation of oxide materials, including their biocompatibility