Novel Electrochemical Energy Storage Devices Explore the latest developments in electrochemical energy storage device technologyIn Novel Electrochemical Energy Storage Devices, an accomplished team of authors delivers a thorough examination of the latest developments in the electrode and cell configurations of lithium-ion batteries and electrochemical capacitors. Several kinds of newly developed devices are introduced, with information about their theoretical bases, materials, fabrication technologies, design considerations, and implementation presented.You ll learn about the current challenges facing the industry, future research trends likely to capture the imaginations of researchers and professionals working in industry and academia, and still-available opportunities in this fast-moving area. You ll discover a wide range of new concepts, materials, and technologies that have been developed over the past few decades to advance the technologies of lithium ion batteries, electrochemical capacitors, and intelligent devices. Finally, you ll find solutions to basic research challenges and the technologies applicable to energy storage industries.Readers will also benefit from the inclusion of:A thorough introduction to energy conversion and storage, and the history and classification of electrochemical energy storageAn exploration of materials and fabrication of electrochemical energy storage devices, including categories, EDLCSs, pseudocapacitors, and hybrid capacitorsA practical discussion of the theory and characterizations of flexible cells, including their mechanical properties and the limits of conventional architecturesA concise treatment of the materials and fabrication technologies involved in the manufacture of flexible cellsPerfect for materials scientists, electrochemists, and solid-state chemists, Novel Electrochemical Energy Storage Devices will also earn a place in the libraries of applied physicists, and engineers in power technology and the electrotechnical industry seeking a one-stop reference for portable and smart electrochemical energy storage devices.

This book explores the latest developments in electrochemical energy storage device technologies.

Das E-Book Novel Electrochemical Energy Storage Devices wird angeboten von Wiley-VCH GmbH und wurde mit folgenden Begriffen kategorisiert:
Chemie, Chemistry, Electrochemistry, Elektrochemie, Energie, Energiespeicherung, Energy, Hydrogen, Batteries & Fuel Cells, Materialien f. Energiesysteme, Materials for Energy Systems, Materials Science, Materialwissenschaften, Wasserstoff, Wasserstoff, Batterien u. Brennstoffzellen

1 INTRODUCTION1.1 Energy Conversion and Storage: A Global Challenge1.2 Development history of electrochemical energy storage1.3 Classification of electrochemical energy storage1.4 LIBs and ECs: an appropriate electrochemical energy storage1.5 Summary and Outlook2 MATERIALS AND FABRICATION2.2 Mechanisms and advantages of ECs2.2.1 Categories2.3 Roadmap of conventional materials for LIBs2.4 Typical positive materials for LIBs2.5 Typical negative materials for LIBs2.6 New materials for LIBs2.7 Materials for conventional ECs2.8 Electrolytes and separators2.9 Evaluation methods2.10 Production processes for the fabrication2.11 Perspectives3 FLEXIBLE CELLS: THEORY AND CHARACTERIZATIONS3.1 Limitations of the conventional cells3.2 Mechanical process for bendable cells3.3 Mechanics of stretchable cells3.4 Static electrochemical performance of flexible cells3.5 Dynamic performance of flexible cells3.6 Summary and perspectives4 Flexible Cells: Materials and Fabrication Technologies4.1 Construction principles of flexible cells4.2 Substrate materials for flexible cells4.3 Active materials for flexible cells4.3.1 CNTs4.4 Electrolytes for flexible LIBs4.5 Electrolytes for flexible ECs4.6 Nonconductive substrates based flexible cells4.7 CNT and graphene based flexible cells4.8 Construction of stretchable cells by novel architectures4.9 Conclusion and Perspectives5 ARCHITECTURES DESIGN FOR CELLs WITH HIGH ENERGY DENSITY5.1 Strategies for high energy density cells5.2 Gravimetric and volumetric energy density of electrodes5.3 Classification of thick electrodes: bulk and foam electrodes5.4 Design and fabrication of bulk electrodes5.5 Characterization and numerical simulation of tortuosity5.6 Fabrication methods for bulk electrodes5.7 Thick electrodes with random pore structure5.8 Thick electrodes with directional pore distribution5.9 Carbon based foam electrodes with high gravimetric energy density5.10 Carbon based thick electrodes5.11 Thick electrodes based on the conductive polymer gels5.12 Summary and Perspectives6 MINIATURIZED CELLS6.1 Introduction6.2 Evaluation methods for the miniaturized cells6.3 Architectures of various miniaturized cells6.4 Materials for the miniaturized cells6.5 Fabrication technologies for miniaturized cells6.6 Fabrication technologies for 2D interdigitated cells6.7 Printing technologies for 2D interdigitated cells6.8 Electrochemical deposition method for 2D interdigitated cells6.9 Laser scribing for 2D interdigitated cells6.10 In-situ electrode conversion for 2D interdigitated cells6.11 Fabrication technologies for 3D in-plane miniaturized cells6.12 Fabrication of miniaturized cells with 3D stacked configuration6.13 Integrated systems6.14 Summary and perspectives7 SMART CELLS7.1 Definition of smart materials and cells7.2 Type of smart materials7.3 Construction of smart cells7.4 Application of shape-memory materials in LIBs and ECs7.5 Self-heating and self-monitoring designs7.6 Integrated electrochromic architectures for energy storage7.7 Summary and perspectives