Overview
- This is the only book to give a structured introduction to thermoelectricity in materials whilst moving on to show this property’s use in nanoscale materials rather than bulk materials and their uses in such phenomena/applications as superlattices, quantum dots and nanocomposites
Part of the book series: Engineering Materials and Processes (EMP)
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Keywords
- Thermoelectric phenomena
- Thermoelectricity low-dimensional materials nanoscale materi
- Thermormagnetic phenomena
- Transport in nanoscale materials
- kb4604
About this book
Thermoelectricity describes the physics of energy conversion, from heat to electric power, and from electric power to heat or cooling power in solids.
The working fluid consists of the conduction electrons. Despite a long and distinguished history, recent developments in nanotechnologies have revolutionized the field. It was recognised in the 1990s that low-dimensional systems should result in materials with much better efficiencies than bulk materials, through low-dimensional effects on both charge carriers and lattice waves. This has been experimentally demonstrated in the early 2000s.
This book aims to be the first monograph to comprehensively describe low-dimensional thermoelectricity in a systematic manner. Following the classic format of monographs in this area, it is written so that low-dimensional effects follow naturally from the transport equations. It is aimed at professional researchers in academia and industry, and graduate students in materials engineering, applied physics and chemistry.
Authors and Affiliations
About the authors
Joseph Heremans is a fellow at Delphi Corporation’s research laboratory. Delphi is one of the leading manufacturers of automotive air conditioning, an area of application for thermoelectric cooling. Heremans has written about 15 research articles (3 in Phys. Rev. Lett.) and several review articles on thermoelectric properties of nanowires, mostly from the point of view of their electronic transport properties.
Gang Chen is a Professor of Mechanical Engineering at the Massachusetts Institute of Technology, and specializes in the field of thermal conductivity of low-dimensional materials, and thermodynamics. He is the author of multiple research papers on the subject of low-dimensional thermoelectric materials, particularly from the point of view of phonon heat conduction.
Mildred Dresselhaus is an Institute Professor at the Massachusetts Institute of Technology who has written several tutorial monographs, including for Springer Verlag. She has been working in the field of low-dimensional thermoelectrics since its inception. She is the author of the seminal research paper of the field, in 1993, as well as of the review articles that will constitute the core of the proposed book.
Professor Brian Derby, the editor of the Engineering Materials and Processes series has acknowledged that these authors are preeminent in their field and welcomed their book proposal as a volume in his series.
Bibliographic Information
Book Title: Thermoelectricity
Book Subtitle: Thermoelectric and Thermomagnetic Properties in Low-Dimensional and Nanoscale Materials
Authors: Joseph P. Heremans, Gang Chen, Mildred S. Dresselhaus, Gene Dresselhaus
Series Title: Engineering Materials and Processes
Publisher: Springer London
eBook Packages: Chemistry and Materials Science, Chemistry and Material Science (R0)
Copyright Information: Springer-Verlag London Ltd., part of Springer Nature 2024
Hardcover ISBN: 978-1-84628-362-8Due: 16 August 2024
eBook ISBN: 978-1-84628-363-5Due: 16 August 2024
Series ISSN: 1619-0181
Series E-ISSN: 2365-0761
Edition Number: 1
Number of Pages: 4