"Order from Chaos: Theoretical Principles and Practical Aspects of the New Class of High-Entropy Materials" offers a comprehensive exploration of High-Entropy Materials, a novel class of materials characterized by complex compositions and unexpected properties.
"Order from Chaos: Theoretical Principles and Practical Aspects of the New Class of High-Entropy Materials" offers a comprehensive exploration of High-Entropy Materials, a novel class of materials characterized by complex compositions and unexpected properties.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Luca Spiridigliozzi is a Post-doc Researcher and Lecturer at University of Cassino and Southern Lazio (Italy) in the field of Materials Science and Engineering, and a freelance scientific consultant for the industrial sector. His main research areas are: Fuel Cells, Rare Earths-based Materials, Catalysts and Entropy-Stabilized Materials. Even at a young age, he has published more than 40 scientific papers on international peer-reviewed journals and a monograph entitled "Doped-Ceria Electrolytes: Synthesis, Sintering and Characterization".
Inhaltsangabe
Acknowledgements. Preface. THE CONCEPT OF ENTROPY. Introduction. Measuring Entropy. Information Theory (Shannon Entropy) and Materials Science. High Entropy Materials Definition and Thermodynamics. DIFFERENT CLASSES OF HIGH ENTROPY MATERIALS. Rocksalt Structured Oxides and High Entropy Rocksalts. Fluorite Structured Oxides and High Entropy Fluorites. Perovskite Structured Oxides and High Entropy Perovskites. Carbides and High Entropy Carbides. Borides and High Entropy Borides. Nitrides and High Entropy Nitrides. Silicides and High Entropy Silicides. Empirical Descriptors and High Entropy Materials Design Rules. PROPERTIES AND APPLICATIONS OF HIGH ENTROPY MATERIALS. Noticeable High Entropy Ceramics' Thermal Properties. Noticeable High Entropy Ceramics' Electrical Properties. Noticeable High Entropy Ceramics' Magnetic Properties. Noticeable High Entropy Ceramics' Optical Properties. Conclusions and Future Scenarios. Index.
Acknowledgements. Preface. THE CONCEPT OF ENTROPY. Introduction. Measuring Entropy. Information Theory (Shannon Entropy) and Materials Science. High Entropy Materials Definition and Thermodynamics. DIFFERENT CLASSES OF HIGH ENTROPY MATERIALS. Rocksalt Structured Oxides and High Entropy Rocksalts. Fluorite Structured Oxides and High Entropy Fluorites. Perovskite Structured Oxides and High Entropy Perovskites. Carbides and High Entropy Carbides. Borides and High Entropy Borides. Nitrides and High Entropy Nitrides. Silicides and High Entropy Silicides. Empirical Descriptors and High Entropy Materials Design Rules. PROPERTIES AND APPLICATIONS OF HIGH ENTROPY MATERIALS. Noticeable High Entropy Ceramics' Thermal Properties. Noticeable High Entropy Ceramics' Electrical Properties. Noticeable High Entropy Ceramics' Magnetic Properties. Noticeable High Entropy Ceramics' Optical Properties. Conclusions and Future Scenarios. Index.
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