Impedance Spectroscopy And Its Application In Biological Detection
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Impedance Spectroscopy and its Application in Biological Detection
This book includes basics of impedance spectroscopy technology, substrate compatibility issues, integration capabilities, and several applications in the detection of different analytes. It helps explore the importance of this technique in biological detection, related micro/nanofabricated platforms and respective integration, biological synthesis schemes to carry out the detection, associated challenges, and related future directions. The various qualitative/quantitative findings of several modules are summarized in the form of the detailed descriptions, schematics, and tables. Features: Serves as a single source for exploring underlying fundamental principles and the various biological applications through impedance spectroscopy Includes chapters based on nonbiological applications of impedance spectroscopy and IoT-enabled impedance spectroscopy-based methods for detection Discusses derivations, substrates, applications, and several integrations Describes micro/nanofabrication of impedance-based biological sensors Reviews updated integrations like digital manufacturing and IoT This book is aimed at researchers and graduate students in material science, impedance spectroscopy, and biosensing.
Energy Materials
Energy Materials: A Circular Economy Approach emphasizes the engineering scalability of a circular economy approach to development and use of energy materials. It focuses on waste minimization and its valorization, recycling and reuse, and emerging sustainable materials and technologies. It offers a view of the eco-friendly energy materials and state-of-the-art technologies required for production of these materials in the process industry and manufacturing sectors. • Covers fundamentals, concepts, and current initiatives within the circular economy • Outlines technologies and materials with specific applications for energy systems, sustainability aspects and societal benefits • Focuses on detailed aspects of processing of energy materials, kinetics, their utilization, and end-of-life management and application of circular economy in waste utilization and valorization • Discusses technologies, processing methods, and production of materials related to fuel cells, super capacitors and battery materials, carbon based hetrostructures, catalysis, functional materials, nanotechnology, biofuels, solar and wind energy, and valuable chemicals • Details topics related to synthesis and application of energy materials, their recycle, reuse, and life cycle This book is aimed at students, researchers and professional engineers and scientists working in chemical, materials, energy, and environmental engineering, as well as materials chemistry.
Tribological Aspects of Additive Manufacturing
Tribological Aspects of Additive Manufacturing provides a technical discussion on the roles of the 3D printing process in processing polymeric-, metallic-, and ceramics-based additive manufactured products in order to improve the tribological properties. It explores design flexibility, waste minimization, and cost reduction. Emphasizing the various types of additive manufacturing technologies, this book demonstrates how these can effectively influence the tribological properties of additively manufactured components. It examines 3D printing process parameters, carbon fiber reinforcement, natural fiber reinforcement, and surface structure on tribological properties of 3D-printed parts. This book also covers wear and friction resistance of additively manufactured parts prepared with natural fiber and carbon fiber. This book will be a useful reference for undergraduate and graduate students and academic researchers in the fields of materials science, tribology, additive manufacturing, maintenance engineering, and 3D printing.