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High temperature superconductors --- Lasers

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There is a strong need to store electrical energy from fluctuating renewable energy sources such as solar or wind and to decarbonize transport and industry. High-temperature electrolysis is expected to contribute significantly to reach these goals. This reference text provides a detailed guide, including the fundamental and materials aspects of solid oxide and protonic ceramic electrolysis cells at stack and system levels, as well as recent developments. Applications discussed include the production of green hydrogen as well as the combination of high-temperature electrolysis with other processes for the synthesis of ammonia, methane or e-fuels. Highly relevant to the field of renewable energy supply and conversion, the text provides a comprehensive and accessible reference for researchers, engineers, and graduate students from various disciplines.

High temperature electrolysis. --- Direct energy conversion. --- Energy storage. --- Renewable energy sources. --- Energy conversion & storage. --- TECHNOLOGY & ENGINEERING / Power Resources / Alternative & Renewable.

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This book presents an overview of polymer nanocomposites for use in various high-temperature applications. Specifically, it focuses on the structure and physical properties of nanocomposites based on heterocyclic matrices derived from nitrile monomers such as cyanate esters or phthalonitriles. Due to increasing interest in new heat-resistant, lightweight materials for use in extreme conditions, such as in aeronautics, microelectronics, and various industrial machinery, the high thermal stability of heterocyclic polymer networks, in particular, has attracted much attention from materials researchers and engineers. Featuring a comprehensive review of the most recent advances in research on the structure and physical properties of these promising high-temperature polymer nanocomposites, this book will be of particular interest to materials scientists and engineers working throughout the fields of aeronautical and microelectronic engineering. In general, this book is intended for use by researchers of composite materials and specialists engaged in material selection for work in extreme conditions; for students specializing in materials science; for polymer physicists, and for university libraries.

Heat resistant materials. --- Nanocomposites (Materials) --- Polymers. --- Polymere --- Polymeride --- Polymers and polymerization --- Macromolecules --- Nanocomposite materials --- Nanostructured composite materials --- Nanostructured composites --- Composite materials --- Nanostructured materials --- High temperature materials --- Materials --- Materials at high temperatures --- Composite materials. --- Nanoparticles. --- Aerospace engineering. --- Astronautics. --- Electronics. --- Electronics --- Composites. --- Aerospace Technology and Astronautics. --- Electronics and Microelectronics, Instrumentation. --- Electronic Materials. --- Materials. --- Electrical engineering --- Physical sciences --- Space sciences --- Aeronautics --- Astrodynamics --- Space flight --- Space vehicles --- Aeronautical engineering --- Astronautics --- Engineering --- Nano-particles --- NPs (Nanoparticles) --- Nanoscale particles --- Particles --- Composites (Materials) --- Multiphase materials --- Reinforced solids --- Solids, Reinforced --- Two phase materials --- Electronic materials