Upload
others
View
7
Download
0
Embed Size (px)
Citation preview
Thermoelectric Materials 2010—Growth, Properties, Novel Characterization
Methods and Applications
www.cambridge.org© in this web service Cambridge University Press
Cambridge University Press978-1-107-40670-4 - Thermoelectric Materials 2010—Growth, Properties, Novel CharacterizationMethods and Applications: Materials Research Society Symposium Proceedings: Volume 1267Editors: John D. Baniecki, G. Jeffrey Snyder, Jonathan A. Malen and Harry L. TullerFrontmatterMore information
www.cambridge.org© in this web service Cambridge University Press
Cambridge University Press978-1-107-40670-4 - Thermoelectric Materials 2010—Growth, Properties, Novel CharacterizationMethods and Applications: Materials Research Society Symposium Proceedings: Volume 1267Editors: John D. Baniecki, G. Jeffrey Snyder, Jonathan A. Malen and Harry L. TullerFrontmatterMore information
MATERIALS RESEARCH SOCIETYSYMPOSIUM PROCEEDINGS VOLUME 1267
Thermoelectric Materials 2010—Growth, Properties, NovelCharacterization Methods
and Applications
Symposium held April 5-9, 2010, San Francisco, California
EDITORS:
John D. BanieckiFujitsu Laboratories
Atsugi, Japan
G. Jeffrey SnyderCalifornia Institute of Technology
Pasadena, California, U.S.A.
Jonathan A. MalenUniversity of California, Berkeley
Berkeley, California, U.S.A.
Harry L. TullerMassachusetts Institute of Technology
Cambridge, Massachusetts, U.S.A.
1M1R1S1Materials Research Society
Warrendale, Pennsylvania
www.cambridge.org© in this web service Cambridge University Press
Cambridge University Press978-1-107-40670-4 - Thermoelectric Materials 2010—Growth, Properties, Novel CharacterizationMethods and Applications: Materials Research Society Symposium Proceedings: Volume 1267Editors: John D. Baniecki, G. Jeffrey Snyder, Jonathan A. Malen and Harry L. TullerFrontmatterMore information
cambridge university press Cambridge, New York, Melbourne, Madrid, Cape Town, Singapore, São Paulo, Delhi, Mexico City
Cambridge University Press32 Avenue of the Americas, New York ny 10013-2473, USA
Published in the United States of America by Cambridge University Press, New York
www.cambridge.orgInformation on this title: www.cambridge.org/9781107406704
Materials Research Society506 Keystone Drive, Warrendale, pa 15086http://www.mrs.org
© Materials Research Society 2010
This publication is in copyright. Subject to statutory exceptionand to the provisions of relevant collective licensing agreements, no reproduction of any part may take place without the written permission of Cambridge University Press.
This publication has been registered with Copyright Clearance Center, Inc.For further information please contact the Copyright Clearance Center,Salem, Massachusetts.
First published 2010 First paperback edition 2012
Single article reprints from this publication are available throughUniversity Microfilms Inc., 300 North Zeeb Road, Ann Arbor, mi 48106
CODEN: MRSPDH
isbn 978-1-605-11244-2 Hardbackisbn 978-1-107-40670-4 Paperback
Cambridge University Press has no responsibility for the persistence oraccuracy of URLs for external or third-party internet websites referred to inthis publication, and does not guarantee that any content on such websites is,or will remain, accurate or appropriate.
www.cambridge.org© in this web service Cambridge University Press
Cambridge University Press978-1-107-40670-4 - Thermoelectric Materials 2010—Growth, Properties, Novel CharacterizationMethods and Applications: Materials Research Society Symposium Proceedings: Volume 1267Editors: John D. Baniecki, G. Jeffrey Snyder, Jonathan A. Malen and Harry L. TullerFrontmatterMore information
CONTENTS
Preface xiii
Materials Research Society Symposium Proceedings xv
NANOSTRUCTURES/NANOCOMPOSITES/NANOWIRES
Nanostructured Silicon-Based Composites for HighTemperature Thermoelectric Applications 3
Sabah Bux, Richard B. Kaner,and Jean-Pierre Fleurial
Nanocrystalline Silicon Compacted by Spark-PlasmaSintering: Microstructure and Thermoelectric Properties 9
G. Schierning, T. Claudio, R. Theissmann, N. Stein,N. Petermann, A. Becker, J. Denker, H. Wiggers,R.P. Hermann, and R. Schmechel
THERMOELECTRIC APPLICATIONS
Portable Power Thermoelectric Generator — Design andCharacterization 17
C. Ramesh Koripella, Lon E. Bell, and Doug Crane
Performance Optimization of a TE Generator Element withLinear Material Profiles in a ID Scheme. 27
Knud Zabrocki, Wolfgang Seifert,and Eckhard Miiller
Hybrid Thermal Behavior from Thermoelectrics to HeatSinking of a Thin Si Membrane with Stretched Ge QuantumDots 33
Jean-Numa Gillet
Design and Synthesis of One and Two DimensionalThermoelectric Nanomaterials Composed of Bismuth,Antimony, and Tellurium 41
Derrick Mott, Nguyen T.B. Thuy, Nguyen T. Mai,Youjiro Maeda, Tran P.T. Linh, Mikio Koyano,and Shinya Maenosono
www.cambridge.org© in this web service Cambridge University Press
Cambridge University Press978-1-107-40670-4 - Thermoelectric Materials 2010—Growth, Properties, Novel CharacterizationMethods and Applications: Materials Research Society Symposium Proceedings: Volume 1267Editors: John D. Baniecki, G. Jeffrey Snyder, Jonathan A. Malen and Harry L. TullerFrontmatterMore information
BULK THERMOELECTRICS—NOT OXIDES
Thermoelectric Properties of CoSb3-Based SkutteruditeCompounds. 49
Adul Harnwunggmoung, Ken Kurosaki,Hiroaki Muta, and Shinsuke Yamanaka
Thermoelectric Properties of Non-Equilibrium SynthesizedCe0.9Fe3CoSb12 Filled Skutterudites 55
Qing Jie, Juan Zhou, Ivo K. Dimitrov,Chang-Peng Li, Ctirad Uher, Hsin Wang,Wallace D. Porter, and Qiang Li
Synthesis and Thermoelectric Properties of DopedYbi4MnSbn_xBix Zintls 61
Kurt Star, Alex Zevalkink, Chen-Kuo Huang,Bruce Dunn, and Jean-Pierre Fleurial
Thermoelectric Performance of Nanostructured ZrNiSnCompounds Synthesized by Mechanical Alloying 67
Jeffrey D. Germond, Paul J. Schilling,Nathan J. Takas, and Pierre F.P. Poudeu
NOVEL THERMOELECTRIC MATERIALS AND RESONANT STATES
High Thermoelectric Efficiency in Co-Doped Degeneratep-Type PbTe 75
John Androulakis, Ilyia Todorov,Duck-Young Chung, Sedat Ballikaya, Guoyu Wang,Ctirad Uher, and Mercouri Kanatzidis
NMR and Computational Studies of Ba8Ga16Sn30 Clathrates 81Sergio Y. Rodriguez, Xiang Zheng,and Joseph H. Ross, Jr.
Effect of (Pb,Ge)Te Addition on the Phase Stability and theThermoelectric Properties of AgSbTe2 87
Aikebaier Yusufu, Ken Kurosaki, Hiroaki Muta,and Shinsuke Yamanaka
POSTER SESSION I
Thermoelectric Figure of Merit Calculations for Nanowires -The Moderate Confinement Regime 97
Jane Cornett and Oded Rabin
vi
www.cambridge.org© in this web service Cambridge University Press
Cambridge University Press978-1-107-40670-4 - Thermoelectric Materials 2010—Growth, Properties, Novel CharacterizationMethods and Applications: Materials Research Society Symposium Proceedings: Volume 1267Editors: John D. Baniecki, G. Jeffrey Snyder, Jonathan A. Malen and Harry L. TullerFrontmatterMore information
Effect of Partial Filling of the Structural Vacant Sites on theThermoelectric Properties of Zro.25Hfo.75NiSn Half-HeuslerAlloy 103
Julien P.A. Makongo, Dinesh K. Misra,Nathan Takas, Kevin Stokes, Heike Gabrisch,and Pierre F.P. Poudeu
Thermoelectric Properties of Si02/Si02+CoSb3 MultiNanolayered Films Modified by MeV Si Ions Bombardment 109
S. Budak, C. Smith, J. Chacha, M. Pugh, K. Ogbara,K. Heidary, R.B. Johnson, C. Muntele, and D. ILA
MeV Si Ions Bombardment Effects on the ThermoelectricProperties of Si/Si+Ge Multi-Layer Superlattice NanolayeredFilms 115
M. Pugh, S. Budak, C. Smith, J. Chacha, K. Ogbara,K. Heidary, R.B. Johnson, C. Muntele, and D. ILA
Effects of MeV Si Ions Modification on the ThermoelectricProperties of SiO2/SiO2+Cu Multilayer Thin Films 121
J. Chacha, S. Budak, C. Smith, M. Pugh, K. Ogbara,K. Heidary, R.B. Johnson, C. Muntele, and D. ILA
Thermoelectric Properties of SiO2/SiO2+Ag NanolayeredMultilayer Films Effected by MeV Si Ions 127
C. Smith, S, Budak, J. Chacha, M. Pugh, H. Martin,T. Langham, B. Harrell, K. Heidary, R.B. Johnson,Y. Yang, C. Muntele, and D. ILA
The Role NiO of Nanoinclusions on High Performance HalfHeusler Thermoelectric Materials 133
Rumana Yaqub, Paranthi Sahoo,Julien P.A. Makongo, Westly M. Nolting,Nathan Takas, Pierre F.P. Poudeu,and Kevin L. Stokes
Impact of Dopants on the PbTe Thermoelectric Efficiency 139Ka Xiong, Rahul P. Gupta, John B. White,Bruce E. Gnade, and Kyeongjae Cho
Improvement in Contact Resistivity to Thin Film Bi2Te3 147Rahul P. Gupta, Ka Xiong, John B. White,Kyeongjae Cho, and Bruce E. Gnade
www.cambridge.org© in this web service Cambridge University Press
Cambridge University Press978-1-107-40670-4 - Thermoelectric Materials 2010—Growth, Properties, Novel CharacterizationMethods and Applications: Materials Research Society Symposium Proceedings: Volume 1267Editors: John D. Baniecki, G. Jeffrey Snyder, Jonathan A. Malen and Harry L. TullerFrontmatterMore information
Indentation Testing of Bulk Zro.5Hfo.5Co1_xIrxSbo.99Sno.oiHalf-Heusler Alloys 153
Melody A. Verges, Paul J. Schilling,Jeffrey D. Germond, Puja Upadhyay,William K. Miller, Nathan J. Takas,and Pierre F.P. Poudeu
Microstructure Investigation of Non-Equilibrium SynthesizedFilled Skutterudite CeFe4Sb12 . . 159
Juan Zhou, Qing Jie, and Qiang Li
Temperature and Size Effects on the Extremely Low ThermalConductivity of Self-Assembled Germanium Quantum-DotSupercrystals in Silicon 165
Jean-Numa Gillet
THERMOELECTRICS NANO BULK I
Reduction of the Lattice Thermal Conductivity in ImmisciblePbS-PbTe Systems 175
Simon Johnsen, Steven N. Girard, Iliya Todorov,Duck Young Chung, and Mercouri G. Kanatzidis
Improvements of Thermoelectric Performances in AgSbTe2
System with In-Situ Ag2Te Nano-Precipitations 181S.N. Zhang, S.H. Yang, G.Y. Jiang, J.J. Shen,T.J. Zhu, and X.B. Zhao
Investigation of the Thermoelectric Properties of thePbTe-SrTe System 187
Kanishka Biswas, Jiaqing He, Qichun Zhang,Guoyu Wang, Ctirad Uher, Vinayak P. Dravid,and Mercouri G. Kanatzidis
*• Nanostructure Formation in Bulk Thermoelectric Compoundsin the Pseudo Binary PbTe-Sb2Te3 System 193
Teruyuki Ikeda and G. Jeffrey Snyder
Thermoelectric Properties of Composite PbTe - PbSnS2
Materials 205Steven N. Girard, Jiaqing He, Vinayak P. Dravid,and Mercouri G. Kanatzidis
* Invited Paper
Vlll
www.cambridge.org© in this web service Cambridge University Press
Cambridge University Press978-1-107-40670-4 - Thermoelectric Materials 2010—Growth, Properties, Novel CharacterizationMethods and Applications: Materials Research Society Symposium Proceedings: Volume 1267Editors: John D. Baniecki, G. Jeffrey Snyder, Jonathan A. Malen and Harry L. TullerFrontmatterMore information
Structure and Thermoelectric Properties Correlation inHalf-Heusler ZrNiSn-Based Bulk Nano-Composite Materialsby Transmission Electron Microscopy 211
D.K. Misra, Mien P.A. Makongo,Michael R. Shabetai, Girija S. Chaubey,John B. Wiley, Kevin L. Stokes,and Pierre F.P. Poudeu
THERMOELECTRICS NANO BULK II
Spinodal Decomposition in Off-StoichiometricZro.5Hfo.5C01.yIrySbj.zSn2 Half-Heusler Phases 219
Nathan J. Takas, Dinesh K. Misra, Heike Gabrisch,and P. Ferdinand P. Poudeu
Thermoelectric Properties of Zro.5Hfo.5Nio.8Pdo.2Sno.99Sbo.o1Half-Heusler Alloy with WO3 Inclusions 225
Mien P.A. Makongo, Pravin Paudel,Dinesh K. Misra, and Pierre F.P. Poudeu
Metal Nanoinclusions (Bi and Ag) in Bi2Te3 for EnhancedThermoelectric Applications 231
Sumithra Santhanam, Nathan J. Takas,Nathaniel L. Henderson, Westly M. Nolting,Dinesh K. Misra, Pierre F.P. Poudeu,and Kevin L. Stokes
SUPERLATTICES, NANOWIRES, NANOPARTICLESI
Thermoelectric Properties of Electrodeposited BiSbTeNanowires 239
Raja S. Mannam and Despina Davis
Colloidal Nanostructures as Building Blocks for MacroscopicThermoelectric Materials with Electron-Crystal Phonon-GlassProperties 245
Marcus Scheele, Niels Oeschler, Katrin Meier,Andreas Kornowski, Christian Klinke,and Horst Weller
www.cambridge.org© in this web service Cambridge University Press
Cambridge University Press978-1-107-40670-4 - Thermoelectric Materials 2010—Growth, Properties, Novel CharacterizationMethods and Applications: Materials Research Society Symposium Proceedings: Volume 1267Editors: John D. Baniecki, G. Jeffrey Snyder, Jonathan A. Malen and Harry L. TullerFrontmatterMore information
SUPERLATTICES, NANOWIRES, NANOPARTICLESII
The Effect of Cross-Sectional Geometry on ZT Enhancementin Rough Silicon Nanostructures 253
Jyothi Sadhu, Marc Ghossoub, and Sanjiv Sinha
POSTER SESSION II
Single-Crystal Wires Based on Doped Bi for AnisotropicThermoelectric Microgenerators 261
Albina A. Nikolaeva, Leonid A. Konopko,Tito E. Huber, and Ana K. Tsurkan
Study of Narestructure Inclusion Effects on theThermoelectric Behavior of Ca3C04O9 Thin Films Grown byPulsed Laser Deposition 267
Evan L. Thomas, Xueyan Song, Yonggao Yan,Joshua Martin, Winnie Wong-Ng, Margaret Ratcliff,and Paul N. Barnes
Microthermocouples of a Glass-Insulated Bifilar MicrowireBased on Bi2Te3 273
Dragosh F. Meglei, Tito E. Huber, Maria P. Dyntu,and Albina A. Nikolaeva
Correlation of Microstructural Properties with ThermoelectricPerformance of Bio.5SbL5Te3 Films Fabricated byElectroplating 279
E. Koukharenko, X. Li, J. Kuleshova, M. Fowler,N. Frety, MJ. Tudor, S.P. Beeby, I. Nandhakumar,and N.M. White
Effect of Vacancies on the Thermoelectric Properties of Mg2SiContaining Sb and Bi Substitution 287
T. Dasgupta, C. Stiewe, R. Hassdorf, L. Boettcher,and E. Mueller
Synthesis of Sodium Cobalt Oxide Submicron Tubules UsingCitric Acid-Based Sol-Gel Route Assisted by PorousAluminum Oxide Membrane 293
Chia-Jyi Liu, Long-Jiann Shih,and Hsueh-Jung Huang
www.cambridge.org© in this web service Cambridge University Press
Cambridge University Press978-1-107-40670-4 - Thermoelectric Materials 2010—Growth, Properties, Novel CharacterizationMethods and Applications: Materials Research Society Symposium Proceedings: Volume 1267Editors: John D. Baniecki, G. Jeffrey Snyder, Jonathan A. Malen and Harry L. TullerFrontmatterMore information
THERMOELECTRIC OXIDES
Direct Measurement of the Absolute Seebeck Coefficient forPb and Cu at 300 K to 450 K 301
Patrick L. Garrity and Kevin L. Stokes
The Effect of Rh and Sr Substitution on the ThermoelectricPerformance of LaCo03 307
Kyei-Sing Kwong, Andrew E. Smith,and M.A. Subramanian
Synthesis and Thermoelectric Properties of Y-Doped Ca3Co409
Ceramics 313J.E. Rodriguez and L.C. Moreno
Preparation of High Seebeck Coefficient Calcium CobaltateThermoelectric Powders 321
Sidney Lin and Jiri Selig
THERMOELECTRIC MEASUREMENT METHODS
In-Plane Thermal Conductivity Determination in Silicon onInsulator (SOI) Structures through ThermoreflectanceMeasurements 329
Max S. Aubain and Prabhakar R. Bandaru
Author Index 335
Subject Index 339
www.cambridge.org© in this web service Cambridge University Press
Cambridge University Press978-1-107-40670-4 - Thermoelectric Materials 2010—Growth, Properties, Novel CharacterizationMethods and Applications: Materials Research Society Symposium Proceedings: Volume 1267Editors: John D. Baniecki, G. Jeffrey Snyder, Jonathan A. Malen and Harry L. TullerFrontmatterMore information
www.cambridge.org© in this web service Cambridge University Press
Cambridge University Press978-1-107-40670-4 - Thermoelectric Materials 2010—Growth, Properties, Novel CharacterizationMethods and Applications: Materials Research Society Symposium Proceedings: Volume 1267Editors: John D. Baniecki, G. Jeffrey Snyder, Jonathan A. Malen and Harry L. TullerFrontmatterMore information
PREFACE
Symposium DD, "Thermoelectric Materials—Growth, Properties, NovelCharacterization Methods, and Applications," was held April 5-9 at the 2010 MRSSpring Meeting in San Francisco, California. Thermoelectric materials have gainedsignificant distinction as energy-conversion materials used to recycle waste heat frompower plants, automobiles and computers into usable electrical energy. While the firstsuch practical material (bismuth telluride alloy) was prepared nearly 40 years ago, onlyrecently has there been progress in realizing thermoelectric materials with significantlyimproved efficiencies, with a key driver behind this success being the ability tonanostructure materials. This symposium brought together researchers developing novelmaterials, preparation methods, characterization techniques, and applications ofthermoelectric materials. Topics addressed in the symposium included processing of andproperties of bulk and thin-film thermoelectric materials, nanostructured complex oxidematerials, organic-inorganic hybrid materials, nanoscale energy transport and conversion,Ab initio studies and the design, fabrication, and testing of thermoelectric devices.
In the opening session, David G. Cahill (University of Illinois, Urbana) focused onthe thermal conductivity of materials investigating the thermal conductivity of a widevariety of nanostructured thermoelectric materials, including InGaAs/ErAs nanodots andPbTe/PbSe nanodots superlattices by time-domain thermoreflectance (TDTR). ErAsnanodots lowered the thermal conductivity of InGaAs and reduced the TDTR frequencydependence. PbSe nanodots were not as effective in lowering the thermal conductivity ofPbTe and the lattice thermal conductivity of PbTe/PbSe nanodots superlattices did notfall significantly below 1 W/m K. This was understood based on the small acousticmismatch between PbTe and PbSe and the strong anharmonicity of PbTe. Whilenanostructures can reduce thermal conductivity in thermoelectric s, they appear to have agreater effect on materials with high thermal conductivity to start, rather than furtherhelping preferred materials that have lower thermal conductivity to start.
Regarding applications of thermoelectric materials, Ryoji Funahashi (AIST)discussed power generation of cascaded thermoelectric arrays and Shuichi Funahashi(Murata Manufacturing Company, Ltd.) reported progress on development ofthermoelectric devices using a multilayer ceramic capacitor production technology. Thethermoelectric device consisted of 25 P/I/N — pairs using p- type- (L^ 97,Sro.o3)Cu04, n-type- (Ndi 97,Ceo.o3)Cu04, and an insulator with a mixture of Mg2Si04 and glass. Thedevice generated 26 mW of electric power with 360K of temperature gap. Generatedelectric power was smaller than the theoretical value because of electric resistance andthermal losses in the P/N junction. Adjustment in the fabrication process such as thedensities of green tape, laminated density, and sintering condition improved theperformance of the thermoelectric MLCCs.
Progress in the development of non-oxide bulk thermoelectric materials was givenby Ctirad Uher (University of Michigan) who gave an update on recent progress inSkutterdite-based thermoelectric, while Eric S. Toberer (California Institute ofTechnology) presented studies on transport in complex Zintl Antimonides. TeruyukiIkeda (PRESTO and California Institute of Technology) discussed nanostructure
www.cambridge.org© in this web service Cambridge University Press
Cambridge University Press978-1-107-40670-4 - Thermoelectric Materials 2010—Growth, Properties, Novel CharacterizationMethods and Applications: Materials Research Society Symposium Proceedings: Volume 1267Editors: John D. Baniecki, G. Jeffrey Snyder, Jonathan A. Malen and Harry L. TullerFrontmatterMore information
formation in bulk PbTe-based compounds via phase transformation.
Regarding thermoelectric oxides, Kunihito Koumoto (Nagoya University) focusedon nanostructure control to enhance thermoelectric performance of SrTiO3 and TiS2
2DEG. Anke Wedenkaff (Solid State Chemistry and Catalysis, Empa, Duebendorf,Switzerland) discussed development of perovskite-type oxide and oxynitrides forthermoelectric solar converters.
Symposium Support:
• Corning, Inc.• GMZ Energy, Inc.• ZT Plus
John D. BanieckiG. Jeffrey SynderJonathan A MalenHarry L. Tuller
July 2009
www.cambridge.org© in this web service Cambridge University Press
Cambridge University Press978-1-107-40670-4 - Thermoelectric Materials 2010—Growth, Properties, Novel CharacterizationMethods and Applications: Materials Research Society Symposium Proceedings: Volume 1267Editors: John D. Baniecki, G. Jeffrey Snyder, Jonathan A. Malen and Harry L. TullerFrontmatterMore information
MATERIALS RESEARCH SOCIETY SYMPOSIUM PROCEEDINGS
Volume 1245— Amorphous and Polycrystalline Thin-Film Silicon Science and Technology—2010,Q. Wang, B. Yan, C.C. Tsai, S. Higashi, A. Flewitt, 2010, ISBN 978-1-60511-222-0
Volume 1246 — Silicon Carbide 2010—Materials, Processing and Devices, S.E. Saddow, E.K. Sanchez,F. Zhao, M. Dudley, 2010, ISBN 978-1-60511-223-7
Volume 1247E —Solution Processing of Inorganic and Hybrid Materials for Electronics and Photonics,2010, ISBN 978-1-60511-224-4
Volume 1248E —Plasmonic Materials and Metamaterials, J.A. Dionne, L.A. Sweatlock, G. Shvets, L.P. Lee,2010, ISBN 978-1-60511-225-1
Volume 1249 — Advanced Interconnects and Chemical Mechanical Planarization for Micro- andNanoelectronics, J.W. Bartha, C.L. Borst, D. DeNardis, H. Kim, A. Naeemi, A. Nelson,S.S. Papa Rao, H.W. Ro, D. Toma, 2010, ISBN 978-1-60511-226-8
Volume 1250 — Materials and Physics for Nonvolatile Memories II, C. Bonafos, Y. Fujisaki, P. Dimitrakis,E. Tokumitsu, 2010, ISBN 978-1-60511-227-5
Volume 125IE —Phase-Change Materials for Memory and Reconflgurable Electronics Applications,P. Fons, K. Campbell, B. Cheong, S. Raoux, M. Wuttig, 2010, ISBN 978-1-60511-228-2
Volume 1252— Materials and Devices for End-of-Roadmap and Beyond CMOS Scaling, A.C. Kummel,P. Majhi, I. Thayne, H. Watanabe, S. Ramanathan, S. Guha, J. Mannhart, 2010,ISBN 978-1-60511-229-9
Volume 1253 — Functional Materials and Nanostructures for Chemical and Biochemical Sensing, E. Comini,P. Gouma, G. Malliaras, L. Torsi, 2010, ISBN 978-1-60511-230-5
Volume 1254E —Recent Advances and New Discoveries in High-Temperature Superconductivity, S.H. Wee,V. Selvamanickam, Q. Jia, H. Hosono, H-H. Wen, 2010, ISBN 978-1-60511-231-2
Volume 1255E —Structure-Function Relations at Perovskite Surfaces and Interfaces, A.P. Baddorf,U. Diebold, D. Hesse, A. Rappe, N. Shibata, 2010, ISBN 978-1-60511-232-9
Volume 1256E —Functional Oxide Nanostructures and Heterostructures, 2010, ISBN 978-1-60511-233-6Volume 1257 — Multifunctional Nanoparticle Systems—Coupled Behavior and Applications, Y. Bao,
A.M. Dattelbaum, J.B. Tracy, Y. Yin, 2010, ISBN 978-1-60511-234-3Volume 1258 — Low-Dimensional Functional Nanostructures—Fabrication, Characterization and
Applications, H. Riel, W. Lee, M. Zacharias, M. McAlpine, T. Mayer, H. Fan, M. Knez,S. Wong, 2010, ISBN 978-1-60511-235-0
Volume 1259E —Graphene Materials and Devices, M. Chhowalla, 2010, ISBN 978-1-60511-236-7Volume 1260 — Photovoltaics and Optoelectronics from Nanoparticles, M. Winterer, W.L. Gladfelter, D.R.
Gamelin, S. Oda, 2010, ISBN 978-1-60511-237-4Volume 126IE —Scanning Probe Microscopy—Frontiers in NanoBio Science, C. Durkan, 2010,
ISBN 978-1-60511-238-1Volume 1262 — In-Situ and Operando Probing of Energy Materials at Multiscale Down to Single Atomic
Column—The Power of X-Rays, Neutrons and Electron Microscopy, CM. Wang,N. de Jonge, R.E. Dunin-Borkowski, A. Braun, J-H. Guo, H. Schober, R.E. Winans, 2010,ISBN 978-1-60511-239-8
Volume 1263E —Computational Approaches to Materials for Energy, K. Kim, M. van Shilfgaarde, V. Ozolins,G. Ceder, V. Tomar, 2010, ISBN 978-1-60511-240-4
Volume 1264 — Basic Actinide Science and Materials for Nuclear Applications, J.K. Gibson, S.K. McCall,E.D. Bauer, L. Soderholm, T. Fanghaenel, R. Devanathan, A. Misra, C. Trautmann,B.D. Wirth, 2010, ISBN 978-1-60511-241-1
Volume 1265 -— Scientific Basis for Nuclear Waste Management XXXIV, K.L. Smith, S. Kroeker,B. Uberuaga, K.R. Whittle, 2010, ISBN 978-1-60511-242-8
Volume 1266E — Solid-State Batteries, S-H. Lee, A. Hayashi, N. Dudney, K. Takada, 2010,ISBN 978-1-60511-243-5
Volume 1267 — Thermoelectric Materials 2010—Growth, Properties, Novel Characterization Methods andApplications, H.L. Tuller, J.D. Baniecki, G.J. Snyder, J.A. Malen, 2010,ISBN 978-1-60511-244-2
Volume 1268 — Defects in Inorganic Photovoltaic Materials, D. Friedman, M. Stavola, W. Walukiewicz,S. Zhang, 2010, ISBN 978-1-60511-245-9
Volume 1269E —Polymer Materials and Membranes for Energy Devices, A.M. Herring, J.B. Kerr,S.J. Hamrock, T.A. Zawodzinski, 2010, ISBN 978-1-60511-246-6
www.cambridge.org© in this web service Cambridge University Press
Cambridge University Press978-1-107-40670-4 - Thermoelectric Materials 2010—Growth, Properties, Novel CharacterizationMethods and Applications: Materials Research Society Symposium Proceedings: Volume 1267Editors: John D. Baniecki, G. Jeffrey Snyder, Jonathan A. Malen and Harry L. TullerFrontmatterMore information
MATERIALS RESEARCH SOCIETY SYMPOSIUM PROCEEDINGS
Volume 1270 — Organic Photovoltaics and Related Electronics—From Excitons to Devices,V.R. Bommisetty, N.S. Sariciftci, K. Narayan, G. Rumbles, P. Peumans, J. van de Lagemaat,G. Dennler, S.E. Shaheen, 2010, ISBN 978-1-60511-247-3
Volume 127IE — Stretchable Electronics and Conformal Biointerfaces, S.P. Lacour, S. Bauer, J. Rogers,B. Morrison, 2010, ISBN 978-1-60511-248-0
Volume 1272 — Integrated Miniaturized Materials—From Self-Assembly to Device Integration,C.J. Martinez, J. Cabral, A. Fernandez-Nieves, S. Grego, A. Goyal, Q. Lin, JJ. Urban,JJ. Watkins, A. Saiani, R. Callens, J.H. Collier, A. Donald, W. Murphy, D.H. Gracias,B.A. Grzybowski, P.W.K. Rothemund, O.G. Schmidt, R.R. Naik, P.B. Messersmith,M.M. Stevens, R.V. Ulijn, 2010, ISBN 978-1-60511-249-7
Volume 1273E —Evaporative Self Assembly of Polymers, Nanoparticles and DNA, B.A. Korgel, 2010,ISBN 978-1-60511-250-3
Volume 1274 — Biological Materials and Structures in Physiologically Extreme Conditions and Disease,M.J. Buehler, D. Kaplan, C.T. Lim, J. Spatz, 2010, ISBN 978-1-60511-251-0
Prior Materials Research Society Symposium Proceedings available by contacting Materials Research Society
www.cambridge.org© in this web service Cambridge University Press
Cambridge University Press978-1-107-40670-4 - Thermoelectric Materials 2010—Growth, Properties, Novel CharacterizationMethods and Applications: Materials Research Society Symposium Proceedings: Volume 1267Editors: John D. Baniecki, G. Jeffrey Snyder, Jonathan A. Malen and Harry L. TullerFrontmatterMore information