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Chemistry, Physics, and Materials Science of Thermoelectric Materials M.G. Kanatzidis

Chemistry, Physics, and Materials Science of Thermoelectric Materials By M.G. Kanatzidis

Chemistry, Physics, and Materials Science of Thermoelectric Materials by M.G. Kanatzidis


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Summary

Contains a series of topical articles that were presented as invited lectures by prominent leaders in this field at a workshop held in Traverse City, Michigan in 2002. These articles deal with design principles, candidate materials and systems and advances in context, and are useful for both beginning students and practitioners alike.

Chemistry, Physics, and Materials Science of Thermoelectric Materials Summary

Chemistry, Physics, and Materials Science of Thermoelectric Materials: Beyond Bismuth Telluride by M.G. Kanatzidis

This seriesofbooks, which is publishedattherateofaboutoneper year, addresses fundamental problems in materialsscience.Thecontents coverabroadrangeoftopicsfromsmallclustersofatomstoengineering materials and involve chemistry, physics, materials science, and engineering,withlengthscalesrangingfromAngstromsuptomillimeters. Theemphasis is on basic scienceratherthan on applications. Each book focuses on a single areaofcurrent interest and brings together leading experts to give an up-to-date discussion oftheir work and the workof others. Each articlecontainsenough references thattheinterestedreader can access the relevant literature. Thanks are given to the Center for Fundamental Materials Research at Michigan State University for supportingthisseries. M.F.Thorpe,SeriesEditor E-mail:[email protected] EastLansing,Michigan,November2002 v PREFACE ThisvolumerecordsinvitedlecturesgivenattheNewThermoelectric(TE)Materials Workshopheld inTraverseCity,MichiganfromAugust17-21,2002.Thethemeofthe workshop was Chemistry, PhysicsandMaterials ScienceofThermoelectric Materials: Beyond Bismuth Telluride. The objective of this symposium was threefold. First, to examine and assess the ability of solid state chemistry to produce new generation materials for TE applications. Second, to rationalize and predict the charge and heat transportpropertiesofpotentialcandidatesandhypotheticalsystemsthroughsolidstate theoryandexperiment.Third,toidentifyandprioritizeresearchneededtoreachvarious levelsofrequirementsintermsofZTandtemperature.Theseobjectiveswereaddressed by a series of invited talks and discussions by leading experts from academia, governmentlaboratories,andindustry. Thereweretwenty-twoinvitedandeightposterpresentations inthe workshop.Out ofthese,sixteeninvitedpresentationsarerepresentedinthisvolume.Theycoverawide range of subjects, starting from synthesis (based on different strategies) and characterizationofnovel materials to acareful studyoftheir transport properties and electronicstructure.Topicsaddressingtheissueofmakingnew materialsare: synthetic search for new materials (di Salvo et aI.) and synthetic strategies based on phase homologies (Kanatzidis). The different classes of materials covered are: bismuth nanowires (Dresselhausetal.), unconventional high-temperaturethermoelectrics, boron carbides (Aselage et aI.) , layered cobalt oxides (Fujii et aI.), early transition metal antimonides(KleinkeetaI.),skutterudites(Uher),andclathratethermoelectrics(Nolas).

Table of Contents

Overview of Bismuth Nanowires for Thermoelectric Applications.- The Synthetic Search for Better Thermoelectrics.- New Bulk Materials for Thermoelectric Applications: Synthetic Strategies Based on Phase Homologies.- Boron Carbides: Unconventional High-Temperature Thermoelectrics.- Block-Layer Concept for the Layered Cobalt Oxide: A Design for Thermoelectric Oxides.- Thermoelectric Properties of Early Transition Metal Antimonides.- Clathrate Thermoelectrics.- Structure-Property Relations in Skutterudites.- Phonon Heat Conduction in Superlattices.- Thermal Conduction in CoSb3-Based Skutterudites.- Thermoelectric Transport in Bismuth Nanowires: Experimental Results.- Pressure Tuning of Thermoelectric Materials.- Thermoelectrics with Thermionic Boundary Conditions.- Electronic Structure of Complex Bismuth Chaleogenide Systems.- Toward a First-Principles Determination of Transport Coefficients.- Can Theory Help in the Search for Better Thermoelectric Materials?.- Participants.

Additional information

NPB9780306477386
9780306477386
0306477386
Chemistry, Physics, and Materials Science of Thermoelectric Materials: Beyond Bismuth Telluride by M.G. Kanatzidis
New
Hardback
Springer Science+Business Media
2003-08-31
317
N/A
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