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Materials Aspect of Thermoelectricity de Ctirad Uher

Materials Aspect of Thermoelectricity

Editat de Ctirad Uher
en Limba Engleză Hardback – 21 noi 2016
In recent years, novel families of materials have been discovered and significant improvements in classical thermoelectric materials have been made. Thermoelectric generators are now being used to harvest industrial heat waste and convert it into electricity. This is being utilized in communal incinerators, large smelters, and cement plants. Leading car and truck companies are developing thermoelectric power generators to collect heat from the exhaust systems of gasoline and diesel engines. Additionally, thermoelectric coolers are being used in a variety of picnic boxes, vessels used to transport transplant organs, and in air-conditioned seats of mid-size cars. Consisting of twenty-one chapters written by top researchers in the field, this book explores the major advancements being made in the material aspects of thermoelectricity and provides a critical assessment in regards to the broadening of application opportunities for thermoelectric energy conversion.
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Specificații

ISBN-13: 9781498754903
ISBN-10: 1498754902
Pagini: 624
Ilustrații: 322
Dimensiuni: 178 x 254 x 37 mm
Greutate: 1.66 kg
Ediția:1
Editura: CRC Press
Colecția CRC Press

Cuprins

Discovery and Design of New Thermoelectric Materials. Tetradymites: Bi2Te3-Related Materials. Growth and Transport Properties of Tetradymite Thin Films. All-Scale Hierarchical PbTe: From Nanostructuring to a Panoscopic Material. Thermoelectric Properties of Magnesium Silicide–Based Solid Solutions and Higher Manganese Silicides. Clathrate-Based Thermoelectrics. Advances in Nanostructured Half-Heusler Alloys for Thermoelectric Applications. Thermoelectric Properties of Cu2−δX (X = S, Se, and Te). BiCuSeO: A Promising Thermoelectric Material. Phase Diagram Study in n-CoSb3 Skutterudites. Chain-Forming A3MPn3 and A5M2Pn6 Zintl Phases. Thallium-Based Chalcogenides as Thermoelectrics. Higher Manganese Silicides. Boron-Based Materials. Complex Chalcogenides: Pseudo-Hollandites, Structures and Properties. Tetrahedrites: Earth-Abundant Thermoelectric Materials with Intrinsically Low Thermal Conductivity. Organic Thermoelectric Materials. Inorganic/Organic Hybrid Superlattice Materials. Recent Progress in Skutterudites. SHS-Processed Thermoelectric Materials. Prospective Thermoelectrics among Topological Insulators.

Notă biografică

Ctirad Uher is the C. Wilbur Peters Collegiate Professor in the Physics Department of the University of Michigan, where his research focuses on the field of condensed matter physics, including thermoelectric materials, superconductors, and diluted magnetic semiconductors. He received his Ph.D. in physics from the University of New South Wales. Uher was Associate Dean for two years at Michigan before serving as Chair of the Physics Department from 1994-2004, expanding the Department enormously during that time. Uher is a Fellow of the American Physical Society and was chosen in 2008 for the American Physical Society's Outstanding Referees Program for excellence in peer review. He holds an honorary degree from the University of Pardubice in the Czech Republic.

Descriere

This book is comprised of chapters dedicated to each family of thermoelectric materials prepared by the leading authorities in the field. It provides an account of the development of materials that are viewed as the most promising for applications as thermoelectric power generators or thermoelectric coolers. The advantages and shortcomings of novel thermoelectrical materials are discussed, and the reader is informed on the materials aspects of each family of thermoelectric materials: their synthesis, structural properties, thermoelectric parameters, and potential applications.