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Books in Electronic optical and magnetic materials

Supporting researchers and industry professionals, this portfolio covers materials for electronics, photonics, and magnetic devices. It features cutting-edge research, fabrication techniques, and applications that drive advancements in data storage, sensors, and communication technologies.

  • Microsystems for Bioelectronics

    Scaling and Performance Limits
    • 3rd Edition
    • July 1, 2026
    • Victor V. Zhirnov + 1 more
    • English
    Microsystems for Bioelectronics: Scaling and Performance Limits considers physical principles and trends in extremely scaled autonomous microsystems such as integrated intelligent sensor systems, with a focus on energy minimization. The book explores the implications of energy minimization on device and system architecture. It further details the behavior of electronic components and the further implications on system-level scaling and performance limits. In particular, fundamental scaling limits for energy sourcing, sensing, memory, computation, and communication subsystems are developed, with new applications such as optical, magnetic, and mechanical sensors presented.This fully revised and updated edition includes information on semiconductor memories, betavoltaic energy conversion, advanced packaging, recent technology trends, and new technology roadmaps. This new edition of this well-proven book with its unique focus and interdisciplinary approach shows the complexities of the next generation of nanoelectronic microsystems in a clear and easy-to-understand manner, and is aimed for a broad audience within several disciplines.

  • Integrated Photonics for Sensing Applications

    • 1st Edition
    • June 1, 2026
    • Anu Agarwal + 2 more
    • English
    Integrated Photonics for Sensing Applications introduces sensors as an important application area for integrated photonics. It provides a brief historical perspective and highlights key free-space spectroscopic sensing techniques such as FTIR, Raman, SPR, and reflectometry, and it thoroughly explores the advantages of photonic integrated circuit (PIC) sensor systems, which have the potential for low SWAP-C and high performance.The topics covered include sensor system components such as waveguides (for optical wavelengths less than and greater than 1550 nm), ring resonators and toroids, photonic crystals, MZ interferometers, light input and output, light sources (wavelengths less than and greater than 1550 nm), and spectrometers and detectors. The book considers integrated systems that employ biofunctionalization... for applications in chem–bio sensing, and it also addresses sensor manufacturing at scale, including materials, PDK development, and sensor packaging.

  • Piezo-Supercapacitors as Sustainable Energy Devices

    Fundamentals and Applications
    • 1st Edition
    • June 1, 2026
    • M. Basheer Ahamed + 2 more
    • English
    Piezo-supercapacitor... as Sustainable Energy Devices: Fundamentals and Applications presents the latest advances in this important research field. Chapters cover the fundamentals, technological advancements, and diverse range of applications. By exploring the underlying principles, design considerations, manufacturing techniques, and cutting-edge research, the book serves as a valuable reference resource for researchers, as well as materials scientists and engineers who want to develop a deeper understanding of this new and emerging technology to help them overcome implementation challenges and explore new potential for future sustainable energy storage solutions.

  • Advanced Molecular Magnetism

    • 1st Edition
    • April 2, 2026
    • Roman Boča
    • English
    Advanced Molecular Magnetism provides a rigorous overview of the magnetic properties of molecular and extended inorganic systems. Sections cover the fundamentals of magnetic data recording and analysis, establishing exchange interactions as a foundational concept, including discussions on exchange interactions involving both d- and f-block elements, the role of magnetic anisotropy, single-molecule magnets, and spin crossover phenomena. Content emphasizes the correlation of magnetic property analysis with complementary techniques such as UV-Vis and electron paramagnetic resonance (EPR) spectroscopy. In addition, the book provides a thorough overview of electronic energy levels in transition metal complexes is provided, covering electronic terms, multiplets, and Zeeman splitting.The interface between quantum mechanics and macroscopic thermodynamic properties is explored through statistical thermodynamics, and the book reviews the major types of magnetic materials—diamagneti... paramagnetic, ferromagnetic, and antiferromagnetic—wi... a focus on their underlying principles and real-world examples. Methods for deriving magnetochemical formulae for Curie paramagnets, zero-field splitting systems, T- and E-term systems, and pure multiplet systems are clearly presented, alongside practical guidance for magnetic data collection and analysis. Special attention is given to the magnetism of f-elements and the unique properties of single-molecule magnets, as well as to the correct description of many-electron states in both free atoms and those influenced by crystal fields.

  • Green and Sustainable Synthesis of Iron Oxide-Based Nanomaterials for Energy and Environmental Applications

    • 1st Edition
    • March 27, 2026
    • Uma Shanker + 1 more
    • English
    Green and Sustainable Synthesis of Iron Oxide-Based Nanomaterials for Energy and Environmental Applications explores various synthesis methods of iron and iron oxide nanoparticles, with an emphasis on green synthesis – a sustainable and eco-friendly method. The book investigates a range of alternative routes to the synthesis of iron-based nanomaterials, such as using microorganisms (fungi, bacteria, actinomycetes), algae, green plants, and various biocompatible green reagents such as biopolymers, cellulose, and biomass. Furthermore, the effects of various parameters used in the green synthesis approach are examined in order to provide a clear image of the physicochemical features of the nanomaterials created.

  • Magnetic Nano- and Microwires

    Design, Synthesis, Properties and Applications
    • 3rd Edition
    • March 20, 2026
    • Manuel Vázquez
    • English
    Magnetic Nano- and Microwires: Design, Synthesis, Properties and Applications, Third Edition presents the state of the art in research on the curvature of magnetic nanostructures, a topic where observed novel phenomena form the basis of a number of many new applications. Part I explores advanced designs and techniques for the synthesis, growth, and processing of cylindrical magnetic nanowires, nanotubes, and their arrays, as well as of nanowire heterostructures. Methods such as electrodeposition, atomic layer deposition, focused-electron/ion... deposition, epitaxial growth by chemical vapor transport or ultrarapid solidification are covered. The engineering of anodic membranes as templates for electrochemical patterning and of modulations of nanowires is also discussed. Part II addresses the magnetization processes and derived properties of curved magnetic nanostructures. This includes arrays of cylindrical nanowires, and in particular also considers individual nanowires where the effects of curvature together with compositional and diameter modulations are observed. Helical and exotic vortex-transverse complex domain configurations and skyrmion tubes are investigated together with Bloch point domain walls and complex rotational mechanisms involved in the remagnetization processes, in addition to magnetotransport properties and the action of electrical current pulses. Part III focusses on emerging applications of nano- and microwires. It reviews applications where nanowire arrays are used or proposed, including magnetocaloric, thermoelectric for spin caloritronics and thermopower, magnetostrictive sensors and transducers, and biomedical and oncological applications such as robotics and swimmers. A number of devices that makes use of magnetic microwires as sensing elements are also discussed, incluidng advanced flux-gate field sensors, microwave and electromagnetic shielding devices, and tunable magnetic hybrid composites.

  • Sensing

    Long-Lived Resonances
    • 1st Edition
    • February 27, 2026
    • Leonard Dobrzyński + 6 more
    • English
    Sensing: Long-Lived Resonances investigates and provides a solid understanding of long-lived resonance sensing, illustrated by simple examples. Each chapter introduces and defines the sensing resonances, their localized paths, and applications. Many examples in the book apply these methods to materials and sensing systems. The ultimate aim of the book is to pave the way for the creation and improvement of sensors and devices for telecommunications and applied natural sciences. The different examples presented within each chapter of this book can help close the gaps in communication between physicists and specialists using sensor results within their practices.

  • Electromagnetic Interference Shielding Materials

    Graphene-Based Composites and Beyond
    • 1st Edition
    • February 27, 2026
    • Jovana Prekodravac Filipovic + 3 more
    • English
    Please note this is an Open Access title available via Science Direct.Electromagnet... Interference Shielding Materials: Graphene-Based Composites and Beyond offers a thorough, systematic overview of the advances made in research on composites-based materials for electromagnetic interference (EMI) shielding during the past several decades. The use of smartphones, wearable electronics, wi-fi, microwaves, and other smart devices is ubiquitous in modern life. All of these electronics emit electromagnetic waves (EMWs) that create electromagnetic pollution. EMWs can cause serious issues such as electromagnetic radiation, electromagnetic interference (EMI), and information leakage. There is an urgent need for inexpensive, environmentally friendly materials that can mitigate the effects of EMI, and this book provides a through investigation of the shielding capabilities of graphene and other novel nanomaterials. The current state of materials used in EMI shielding is discussed, together with synthesis and fabrication methods, relevant mechanisms, measurements, measuring devices, calculations, physicochemical properties, and applications. The book provides detailed analysis of carbon-based nanomaterials and their composites, including materials fabrication, characterization, and advanced application in EMI shielding. The beneficial effects of these new shielding materials will be relevant in the fields of telecommunications, the electronics industry, the automotive industry, ecology, healthcare, medicine, security, and military applications.

  • Industrial Applications of Functionalized Magnetic Nanoparticles

    • 1st Edition
    • February 16, 2026
    • Kalim Deshmukh + 1 more
    • English
    Industrial Applications of Functionalized Magnetic Nanoparticles (FMNPs) exhibit exceptional mechanical properties owing to their polymer matrix, substantial surface area to volume ratios, and heightened interfacial reactivity. These versatile tools find application in various industrial sectors, and their functionalization with diverse chemical groups can enhance their affinity toward specific targets. Industrial Applications of Functionalized Magnetic Nanoparticles thoroughly explores recent progress in FMNPs, addressing their properties, industrial-scale fabrication methods, and applications across various industrial sectors at both experimental and theoretical scales. This comprehensive book offers detailed insights into the latest technologies, serving as an invaluable resource for researchers keen on understanding the characteristics, unique properties, and synthesis methods of magnetic nanoparticles. Additionally, professionals seeking to apply these nanoparticles in various industries will find this book to be a guiding resource, seamlessly transitioning from laboratory insights to real-world applications.

  • Metal Oxide-Based Thermoelectric Materials

    • 1st Edition
    • January 26, 2026
    • Jai Singh + 3 more
    • English
    Thus far the top-performing thermoelectric materials have included toxic elements or materials that are not abundant or expensive and difficult to produce. Consequently metal oxide materials are now being investigated as potential thermoelectric materials. Metal Oxide-Based Thermoelectric Materials reviews the characteristics of metal oxide materials in comparison to other materials utilized for thermoelectric applications. In particular, there is discussion of the intrinsic advantages of metal oxide materials such as their chemical and thermal stability, environmental friendliness, cheap raw material costs, and chemical flexibility. In addition, the book includes information on their high-temperature stability, adjustable electronic and phonon transport behavior, and well-established simple production processes. Strategies to enhance the thermoelectric properties of metal oxide materials are emphasized in the book. Finally, emerging applications of metal oxide-based thermoelectrics are touched on with an overview of the remaining challenges and opportunities towards commercial translation. Metal oxide-based thermoelectric materials is a suitable reference book for researchers and scientists in academia and R&D in the subject areas of materials science and engineering and energy.

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