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Next-generation energy sources are crucial for combating the world's energy crisis. One such alternative energy source is thermoelectricity, which is cost-efficient and environmentally friendly. This book presents a comprehensive overview of the progress made in thermoelectrics over the past few years with a focus on charge and heat carrier transport from both theoretical and experimental viewpoints. It also presents new strategies to improve thermoelectricity and discusses device physics and applications to guide the research community.
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Superconductivity --- Electric conductivity --- Critical currents --- Superfluidity --- Research.
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Superconductivity. --- Electric conductivity --- Critical currents --- Superfluidity
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Superconductivity. --- Electric conductivity --- Critical currents --- Superfluidity
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Superconductivity. --- Electric conductivity --- Critical currents --- Superfluidity
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In this Special Issue, we have a great collection of 11 outstanding articles that have been published. This Special Issue presents the recent progress on emerging low-dimensional materials and could encourage their future investigations. We hope that both researchers and the community in general can benefit from the outcomes of this Special Issue reprint.
Superconductivity. --- Superconductivity --- Electric conductivity --- Critical currents --- Superfluidity
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This book reports a study of a class of DionJacobson-type layered perovskite oxides in which high oxide-ion conductivities in phases were discovered for the first time in the world. The oxide-ion conductors are important in various energy conversion devices and environmental protection applications such as solid-oxide fuel cells, oxygen gas sensors, oxygen separation membranes, and oxygen-based catalysts.
Physics --- Chemical thermodynamics --- Enzymology --- Applied physical engineering --- katalyse --- energie (technologie) --- fysica --- Electric conductivity. --- Electric conductivity --- Measurement.
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Superconductivity was discovered in 1911 by Kamerlingh Onnes. Since the discovery of an oxide superconductor with critical temperature (Tc) approximately equal to 35 K (by Bednorz and Muller 1986), there are a great number of laboratories all over the world involved in research of superconductors with high Tc values, the so-called "High-Tc superconductors". This book contains 15 chapters reporting about interesting research about theoretical and experimental aspects of superconductivity. You will find here a great number of works about theories and properties of High-Tc superconductors (materials with Tc > 30 K). In a few chapters there are also discussions concerning low-Tc superconductors (Tc < 30 K). This book will certainly encourage further experimental and theoretical research in new theories and new superconducting materials.
Superconductivity. --- Electric conductivity --- Critical currents --- Superfluidity --- Electrochemistry & magnetochemistry
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What is superconductivity? How was it discovered? What are the properties of superconductors, how are they applied now, and how are they likely to become widely used in the near future? These are just some of the questions which this important book sets out to answer. Starting with the discovery of superconductivity over ninety years ago, the book guides the readers through the many years of subsequent exploration, right up to the latest sensational findings. Written in a lively, nontechnical style, this book makes ideal background reading for any school or college level study of superconducti
Superconductivity. --- Electric conductivity. --- Conductivity, Electric --- Free electron theory of metals --- Transport theory --- Electric conductivity --- Critical currents --- Superfluidity
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This book describes the elementary concepts of superconductivity and discusses the topics of flux-lattice melting, magnetization including the para-Meissner effect, microwave absorption, a.c. resistivity along with the London penetration depth, the Mössbauer effect, levitation, fractals and nuclear magnetic resonance. There are appendices covering superconducting compounds, the isotope effect, symmetries, the pseudogap, relativistic superconductivity, the Cherenkov effect and soft vortices. Also included is an appendix on the quantum Hall effect. In all of the chapters, the theoretical descrip
Superconductivity. --- Electric conductivity. --- Conductivity, Electric --- Free electron theory of metals --- Transport theory --- Electric conductivity --- Critical currents --- Superfluidity
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