Recent Trends in Thermoelectric Materials Research, Part Two
Academic Press, Oct 25, 2000 - Technology & Engineering - 320 pages
Since its inception in 1966, the series of numbered volumes known as Semiconductors and Semimetals has distinguished itself through the careful selection of well-known authors, editors, and contributors. The Willardson and Beer series, as it is widely known, has succeeded in producing numerous landmark volumes and chapters. Not only did many of these volumes make an impact at the time of their publication, but they continue to be well-cited years after their original release. Recently, Professor Eicke R. Weber of the University of California at Berkeley joined as a co-editor of the series. Professor Weber, a well-known expert in the field of semiconductor materials, will further contribute to continuing the series' tradition of publishing timely, highly relevant, and long-impacting volumes. Some of the recent volumes, such as Hydrogen in Semiconductors, Imperfections in III/V Materials, Epitaxial Microstructures, High-Speed Heterostructure Devices, Oxygen in Silicon, and others promise that this tradition will be maintained and even expanded.
Thermoelectric materials may be used for solid state refrigeration or power generation applications via the large Peltier effect in these materials. To be an effective thermoelectric material, a material must possess a large Seebeck coefficient, a low resistivity and a low thermal conductivity. Due to increased need for alternative energy sources providing environmentally friendly refrigeration and power generation, thermoelectric materials research experienced a rebirth in the mid 1990's. Semiconductors and Semimetals, Volume 70: Recent Trends in Thermoelectric Materials Research: Part Two provides an overview of much of this research in thermoelectric materials during the decade of the 1990's. New materials and new material concepts such as quantum well and superlattice structures gave hope to the possibilities that might be achieved. An effort was made to focus on these new materials and not on materials such as BiTe alloys, since such recent reviews are available. Experts in the field who were active researchers during this period were the primary authors to this series of review articles. This is the most complete collection of review articles that are primarily focussed on new materials and new concepts that is existence to date.
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Chapter 2 Electronic and Thermoelectric Properties of HalfHeusler Alloys
Chapter 3 Overview of the Thermoelectric Properties of Quasicrystalline Materials and Their Potential for Thermoelectric Applications
Chapter 4 Military Applications of Enhanced Thermoelectrics
Chapter 5 Theoretical and Computational Approaches for Identifying and Optimizing Novel hermoelectric Materials ...
Potential LowTemperature Thermoelectric Materials
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ADP data AlPdMn annealing approximately atoms band structure bandgap behavior boundary Caillat calculations coefﬁcient compounds conduction band cooling CoSb3 crystal structure Debye temperature deﬁned device diffraction dopants doping level effects Einstein temperature electrical resistivity electronic properties electronic refrigeration electronic structure energy Ettingshausen experimental Fermi energy Fermi surface ﬁgure of merit ﬁlling ﬁlm ﬁrst ﬂow function Goldsmid gradient half-Heusler alloys HfTe5 icosahedral isothermal lattice thermal conductivity Lett low temperatures magnetic ﬁeld Mahan measured n-type Optical optimized parameters Peltier pentatellurides phonon Phys pnictogen Poon Quantum quasicrystalline quasicrystals rattlers room temperature sample scattering Seebeck coefficient Semiconductors semimetal shown in Fig Silicon Singh single crystals skutterudites solid speciﬁc sublattice superlattice T. M. Tritt techniques temperature dependence thermal conductivity thermoelectric materials thermoelectric properties thermomagnetic transport thermopower TiCoSb TiNiSn transition metal transport properties Uher valence band voltage Volume X-ray ZrNiSn ZrTe5