PL-1
Status and Future Prospects on the Development of Thermoelectric Power
Generation Systems Utilizing Combustion Heat from Municipal Solid Waste
(Invited)
Takenobu Kajikawa, Shonan Institute of Technology, Fujisawa, Kanagawa, Japan
PL-2
Skutterudites: An Update
J.-P. Fleurial, T. Caillat, and A. Borshchevsky, JPL, Pasadena CA, USA
GEN-O.1
Development of Improved Modules for the Economic Thermoelectric Recovery
of Low Temperature Waste Heat (Invited)
D. M. Rowe, NEDO Centre, Cardiff, South Wales, UK
GEN-O.2
Research Project on the Effective Use of Untapped Thermal Energy from Garbage
Incineration etc. (Invited)
M. Niino1, T. Ohshima1, and K. Matsubara2
1 NAL, Kakuda-City, Japan, 2 Science University of Tokyo in Yamaguchi; Japan
GEN-O.3
Examples of Power from Waste Heat for Gas Fields
John C. Bass, Hi-Z Technology, Inc., San Diego CA, USA
GEN-O.4
Thermoelectric Power Generator Design and Selection from TE Cooling Module
Specifications
Richard J. Buist, and Paul G. Lau, TE Technology, Inc., Traverse City, MI ,USA
GEN-O.5
A Study of Commercial Thermoelectric Generation in a Processing Plant of
Combustible Solid Waste
Akira Tsuyoshi1, Shuzo Kagawa2, Masanori Sakamoto2, and Kenji Matsuura3
1 Kobe City College of Technology, Japan 2 KUBOTA Corporation, Japan
3 Osaka University, Japan
GEN-O.6
Nuclear Thermoelectric Power Units in Russian, USA and European Space Agency
Research Programs
A. A. Pustovalov, BIAPOS Company, Moscow, Russia
CHA-O.1
Prospects of Thermoelectric Cooling At Low Temperature (Invited)
M. V. Vedernikov, V. A. Kutasov, L. N. Luk`yanova, and V. L. Kuznetsov
A.F. Ioffe Physical-Technical Institute, St. Petersburg, Russia
CHA-O.2
Doping Effect to n- and p- Bi2Te3 on Electronic Structures
Sunao Sugihara, Isaku Yonekura and Seiji Kawashima
Shonan Institute of Technology, Fujisawa, Kanagawa, Japan
CHA-O.3
Defect Structure of Undoped and Pb-Doped Bi2Se3 Single Crystals
J. Horak1 , P. Lostak2, J. Navratil1,2, and S. Karamazov2
1 Institute of Inorganic Chemistry, Prague, Czech Republic 2 University of Pardubice, Czech Republic 3 Joint Laboratory of Solid State Chemistry, Academy of Sciences of the Czech Republic and University of Pardubice, Pardubice, Czech Republic
CHA-O.4
Dopant Effects in the Pseudo-Ternary (Bi2Te3)(SbTe3)(Sb2Se3) Alloy
Martin H. Ettenberg, W. A. Jesser, F. D. Rosi, University of Virginia, Charlottesville, VI, USA
CHA-O.5
Pecularities of Electrophysical Properties of Bi2Te3 Doped with Sn
Marina K. Zhitinskaya1, Sergey A. Nemov1, and Tatyana E. Svechnikova2
1 St-Petersburg Technical University, Russia 2 Baikov Institute of Metallurgy, Moscow, Russia
CHA-O.6
Fabrication and Characterization of Bi2Te3- Sb2Te3 Based Thermoelectric
Materials by Modified Powder Extrusion
Kyung-Wook Jang1 and Dong-Hi Lee2
1 Hanseo University, Chungnam, Korea 2 Yonsei University, Korea
CHA-O.7
Effect of Extrusion Process on the Thermoelectric Properties of Hot-Extruded
n-type Bi2Te2.85Se0.15 Compounds
J. Seo1, C. Lee1, K. Park2, M. Ju2, J. Kim
1 Inha University, Inchon, Korea 2 Chung-ju National University, Chungju, Korea
3 Korea Academy of Industrial Technology, Kyunni-do, Korea
CHA-O.8
Thermoelectric Properties of p-Type Bi-Sb-Te Based Material Prepared
by PIES Method with Conventional Ball Milling Process
Shuzo Kagawa1, Hideki Satake1, Masanori Sakamoto1, Atsushi Yamamoto2, and Toshitaka Ohta2
1 KUBOTA Corporation, Amagasaki, Japan
2 Electrotechnical Laboratory, AIST, Tsukuba, Japan
PEL-O.1
Complex Works of the Institute of Thermoelectricity in Theory, Materials
Science and Application of Thermoelectricity (Invited)
L. I. Anatychuk, Institute of Thermoelectricity, Chernovtsy, Ukraine
PEL-O.2
A Critical Evaluation of Today's Thermoelectric Modules
Todd M. Ritzer, Paul Lau, and Andy Bogard, TE Technology Inc, Traverse City, MI, USA
PEL-O.3
Reliability Investigation of Semiconductor Cooler
Liu Zhenmao1, Wang Xilian1, Liu Xiaowei1, Quan Wuyun1, Sun Shufang1, Lu Jingwei1, Chen Lunqiang2
1 Harbin Institute of Technology, Harbin China
2 Peng Xian Refrigeration and Air Conditioning Ltd., China
PEL-O.4
Influence of Difference in Dice Properties on Figure-of-Merit of Thermoelectric
Cooler
I. A. Drabkin, Institute of Chemical Problems for Microelectronics, Moscow, Russia
PEL-O.5
Thermal Properties of Commercial Thermoelectric Modules
Rafael Palacios, and Miguel Angel Sanz-Bobi, Universidad Pontificia Comillas, Madrid, Spain
PEL-O.6
Problems of Thermoelectric Devices Reliability
L. I. Anatychuk, and O. J. Luste, Institute of Thermoelectricity, Chernovtsy, Ukraine
NM-O.1
New Low Thermal Conductivity Materials for Thermoelectric Applications
(Invited)
T. Caillat and J.-P. Fleurial, JPL, Pasadena CA, USA
NM-O.2
Thermoelectric Properties of -Zn4Sb3 Doped with Sn
Tsuyoshi Koyanagi, Kunio Hino, Yasuyuki Nagamoto, Hidetoshi Yoshitake, and Kengo Kishimoto
Yamaguchi University, Tokiwadai, Ube, Japan
NM-O.3
Huge Thermoelectromotive Force Generated by Porous Ceramics of Y2O3
K. Koumoto, W. S. Seo, and S. Ozawa, Nagoya University, Chikusa-ku, Nagoya, Japan
NM-O.4
Enhanced Thermopower and Figure of Merit in Disordered and Mesoscopic Systems
Glen D. Guttman, Eshel Ben-Jacob, and David J. Bergman, Tel Aviv University, Tel Aviv, Israel
NM-O.5
Thermopower and Thermal Transport in Metal - p-type Semiconductor
- Metal Structure
Yu. G. Gurevich1, O. Yu. Titov1, G. N. Logvinov2, O. I. Lyubimov3
1 CINVESTAV , Mexico D. F., , Mexico 2 Teacher Training University, Ternopil, Ukraine
3 Kharkov State University, Kharkov, Ukraine
SKU-O.1
Expanding the Investigation of the Thermoelectric Properties of Rare-Earth-Filled-Skutterudites
George S. Nolas1, Hylan B. Lyon1, J. L. Cohn2, T. M. Tritt3, and G. A. Slack4
1 Marlow Industries, Dallas TX, USA 2 University of Miami, Coral
Gables, FL, USA
3 Clemson University, SC, USA 4 Rensselaer Polytechnic Institute, Troy,
New York, USA
SKU-O.2
Effects of Doping Pd/Pt in CoSb3 Crystals on Electrical and Thermoelectric
Properties
Kakuei Matsubara1, Hiroaki Anno1, Tsutomu Sakakibara2, Yasuhiro
Notohara3, and
Hirofumi Tashiro4
1 Science University of Tokyo in Yamaguchi, Onoda, Japan 2 Aisin Cosmos R&D Co, Kariya, Japan 3 Kyushu Matsushita Electric Co., Fukuoka, Japan 4 Toyo Kohan Co., Kudamatsu, Japan
SKU-O.3
Thermoelectric Properties of the Skutterudite-Related Phase CoSn1.5Te1.5
Yasuyuki Nagamoto, Kazuhiro Tanaka, and Tsuyoshi Koyanagi,
Yamaguchi University, Tokiwadai, Ube, Japan
SKU-O.4
Effects of Defects and Impurities on Electronic Properties in CoSb3
K. Akai, H. Kurisu, T. Shimura, T. Moriyama, and M. Matsuura,
University of Yamaguchi, Ube, Japan
SKU-O.5
Heavy Alloyed Solid Solutions on the Base of CoSb3 as a Material for n-Branch
of Thermoelectric Devices
O. Sh. Gogishvili, L. A. Korolev, R. Ya. Kucherov, and Yu. V. Nikolaev,
SIA "Luch", Podolsk, Russia
SKU-O.6
Preparation and Thermoelectric Properties of CoSb3 Thin Films on GaAs (100)
Substrate
Hiroaki Anno1, Tsutomu Sakakibara2, Yasuhiro Notohara3, Hirofumi Tashiro4, Tsuyoshi Koyanagi5, and Kakuei Matsubara5
1 Science University of Tokyo in Yamaguchi, Onoda, Japan 2 Aisin Cosmos R&D Co. Kariya Japan 3 Kyushu Matsushita Electric Co., Hakata-ku, Fukuoka, Japan 4 Toyo Kohan Co., Kudamatsu, Japan 5 Yamaguchi University, Tokiwadai, Ube , Japan,
BAA-O.1
Galvanomagnetic and Thermoelectric Measurements on Polycrystalline Bi88Sb12
H. J. Goldsmid, E. H. Volckmann, Marlow Industries, Dallas TX, USA
BAA-O.2
Magneto-Thermoelectric Properties of Undoped and Doped Bi-Sb Single Crystals
V. M. Grabov1, O. N. Uryupin2
1 Herzen Russian State Pedagogical University, St. Petersburg, Russia
2 A. F. Ioffe Physical - Technical Institute, St. Petersburg, Russia
BAA-O.3
Determination of Carrier Mobilities and Densities from Galvanomagnetic
Coefficients in Undoped Bi1-xSbx Alloys (x=0.04)
B. Lenoir1, M. O. Selme1, A. Demouge1, H. Scherrer1, Yu. V. Ivanov2, and Yu. I. Ravich2
1 Laboratoire de Physique des MatŽriaux, Ecole des Mines, Nancy,
France
2 A. F. Ioffe Physical - Technical Institute,, St. Petersburg, Russia
BAA-O.4
Energy Conversion Singular Galvano - Thermomagnetic Effects
Masashi Sakurai1, Naoki Satoh1, Sei-ichi Tanuma2, and Ikushi Yoshida1
1 Iwaki Meisei University, Iwaki, Fukushima, Japan 2 Horiuchi, Hayama, Kanagawa, Japan
BAA-O.5
Influence of the Consolidation Technique on the Thermoelectric Properties
of Mechanically Alloyed Bi-Sb
R. Martin-Lopez1, A. Dauscher1, X. Devaux1, B. Lenoir1, H. Scherrer1, M. Zandona2
1 LPM, Ecole des Mines, Nancy, France 2 LSGMM, Ecole des Mines, Nancy France
BAA-O.6
Observation of a Power Factor Enhancement in MBE-Grown Bi1-xSbx Alloy Thin
Films
S. Cho1, A. DiVenere1, G. K. Wong1, J. B. Ketterson1, J.R. Meyer2, C.A. Hoffman2
1 Northwestern University, Evanston IL, USA
2 Naval Research Laboratory, Washington D.C., USA
PL-3
Low Dimensional Thermoelectrics (Invited)
M. S. Dresselhaus1, G. Dresselhaus1, X. Sun1, S. Cronin1, Z. Zhang1, J. Y. Ying1, T. C. Harman2, T. Koga3, K. L. Wang4, and G. Chen4
1 MIT, Cambridge MA, USA 2 MIT Lincoln Laboratory, Lexington, USA 3 Harvard University, Cambridge, MA, USA 4 UCLA, Los Angeles, CA, USA
PL-4
Sensor Applications of Thermoelectric Thin-Films (Invited)
A. W. van Herwaarden, Xensor Integration, Delft, Netherlands
COM-O.1
Thermoelectric Tensor and Figure of Merit for a Composite Medium: Some
Exact Bounds (Invited)
David J. Bergman, Tel Aviv University, Israel
COM-O.2
Thermoelectric Properties of Wire Array Composites (Invited)
T.E. Huber, and L.Luo, Polytechnic University, Brooklyn, NY, USA
COM-O.3
Thermoelectirc Properties of Heterogenous Manyphase and Composite Materials
Yu. Goryachev, M. Siman, and L. Fiyalka, Institute of Material Problems, Kiev, Ukraine
COM-O.4
On the Theory of Thermopower in Random Two-Component Semiconductor Systems
I. I. Fishchuk, Institute of Nuclear Research, Kiev, Ukraine
COM-O.4
Concept of a Three-Dimensional, Periodic Nanostructured Thermoelectric:
New Ways to Increase ZT
A. A. Zakhidov1, R.H. Baughman1, Z. Iqbal1, G. Mahan2, and P. Eklund3
1 AlliedSignal Inc., Morristown NJ, USA 2 University of Tennessee, Knoxville TN, USA
3 University of Kentucky, USA
COM-O.6
The Nanofabrication of Quantum Wires for the Next Generation of Thermoelectric
Materials
David L. Demske, Naval Surface Warfare Center, West Bethesda, Maryland, USA
MEA-O.1
Thermal Conductivity in Thin Films - Experimental Methods and Theoretical
Interpretation (Invited)
F Völklein, Fachhochschule Wiesbaden, Rüsselsheim, Germany
MEA-O.2
Thermal and Electrical Imaging of Surface Properties with High Lateral
Resolution
E. Oesterschulze Universität GH Kassel, Kassel, Germany
MEA-O.3
Thermal Conductivity Measurement and Microscopy of Thin Film Structures
G. T. Borca-Tasciuc1, G. Chen1, and K.L. Wang2
1 Mechanical and Aerospace Engineering Department, UCLA, Los Angeles CA , USA
2 Electrical Engineering Department, UCLA, Los Angeles CA , USA
MEA-O.4
Damped Thermoelectric Waves
Cronin B. Vining, ZT Services Inc., Auburn AL, USA
MEA-O.5
A 256 Pixel Linear Thermopile Array Using Materials with High Thermoelectric
Efficiency
E. Kessler, U. Dillner, V. Baier, J. Müller, IPHT Jena, Germany
MEA-O.6
Thermoelectric Detection of Fotothermal Signals in Semiconductors
Yu. G. Gurevich1, G. Gonzales de la Cruz1, G. N. Logvinov2, and M. N. Kasyanchuk2,
1 Centro de Investigacion y de Estudios del IPN, Mexico, Mexico
2 Ternopil Pedagogical State University, Ternopil, Ukraine
MEA-O.7
Eddy Thermoelectric Currents. Measuring Devices on their Basis
L. I. Anatychuk, and O. J. Luste, Institute of Thermoelectricity, Chernovtsy, Ukraine
TDM-O.1
High Thermoelectric Figures of Merit in PbTe Quantum Wells (Invited)
T. C. Harman1, D. L. Spears1, M. P. Walsh1, X. Sun2, S. B. Cronin2, and M. S. Dresselhaus2
1 Lincoln Laboratory, MIT, Lexington MA, USA 2 Department of Physics, MIT
TDM-O.2
Thermoelectric Transport in Low Dimensional Systems (Invited)
Thomas L. Reinicke, Clemson University, Clemson SC, USA
TDM-O.3
On the Use of Bismuth in Quantum Wells
A. Dauscher, O. Boffoué, X. Devaux, B. Lenoir, R. Martin-Lopez, and H. Scherrer
Laboratoire de Physique des MatŽriaux, Ecole des Mines, Nancy, France
TDM-O.4
Thermoelectric Properties of Multilayered p-type Si-Ge Thin Films
A. Yamamoto1, H. Kato2, M. Takimoto3, T. Ohta1, K. Miki2, K .Sakamoto1, T. Matsui2, and K. Kamisako3
1 MITI, Energy Fundamentals Division, Tsukuba, , Japan 2 Nagoya University,
Japan
3 Tokyo University of Agriculture and Technology, Japan
TDM-O.5
Thermoelectric Properties of Superlattices
S. V. Melnichuk, S. V. Kosyachenko, and V. M. Vozny,
Institute of Thermoelectricity, Chernovtsy, Ukraine
HTM-O.1
Powder Processing of Thermoelectric Materials - Focusing on SiGe with New
Sintering Technique (Invited)
Teruo Noguchi, Vacuum Metallurgical Co., Chiba, Japan
HTM-O.2
Analysis on the Thermal Conductivity of SiGe Thermoelectric Alloys Containing
Fullerite
Z. S. Tan1, W. A. Jesser2, F. D. Rosi2, B. A. Cook3, and K. Sapru1
1 Energy Conversion Devices Inc., Troy MI, USA 2 University of Virginia,
Charlottesville VI, USA 3 Iowa State University, Ames IO, USA
HTM-O.3
Microstructure and Thermoelectric Properties of Arc-Melted Silicon Borides
Lidong Chen, Takashi Goto, Jianhui Li, Toshio Hirai, Tohoku University, Sendai, Japan
HTM-O.4
Electronic Transport in p-type and n-type -Rhombohedral Boron
Roland Schmechel1, Helmut Werheit1, Volker Kueffel1, Torsten Lundstroem2
1 Gerhard Mercator University, Duisburg, Germany 2 Uppsala University, Uppsala, Sweden
HTM-O.5
Hopping Carrier Mobilities and Thermoelectric Properties of Oxide Materials
with Perovskite-Related Structure
Michitaka Ohtaki, Tsutomu Tokunaga, Koichi Eguchi and Hiromichi Arai
Kyushu University, Kasuga-shi, Fukuoka, Japan
HTM-O.6
Thermoelectric Properties of n-type (Pb1-xGex)Te Fabricated by Hot
Pressing Method
J. S. Choi1, H. J. Kim1, H. C. Kim1, D.-B. Hyun2, H. W. Lee3, and T. S. Oh1
1 Hong Ik University, Seoul, Korea 2 Korea Institute of Science and Technology, Seoul, Korea
3 Korea Electro Technology Research Institute, Kyungnam, Korea
HTM-P.1
Structure and Transport Properties of Microcrystalline SiGe Films
F. Edelman1, M. Stölzer2, T. Raz1, Y. Komem1, C. B. Vining3, H. Zeindl4, and P. Zaumseil4
1 Technion, Haifa, Israel 2 Martin-Luther-Universität, Halle,
Germany
3 ZT Services Inc., Auburn AL, USA 4 Institut für Halbleiterphysik,
Frankfurt (Oder), Germany
HTM-P.2
A Study for the Temperature Dependence of Thermoelectric Properties and
Sintering Condition of SiC/Ni Semiconductor
Yoichi Okamoto1, Kazuhiko Kato1, Jun Morimoto1, Toru Miyakawa2
1 Natl. Defense Academy Hashirimizu, Japan 2 Chiba Institute of Technology, Chiba, Japan
HTM-P.3
Thermoelectric Properties of ZnO Doped with the Group 13 Elements
Toshiki Tsubota, Michitaka Ohtaki, Koichi Eguchi, and Hiromichi
Arai,
Kyushu University, Kasuga-shi, Japan
HTM-P.4
The Dependence of Phonon Drag on Zn Concentration in Cd1-x ZnxTe in the
Range 0 < x < 0.1
S. Vackova1, K. Zdansky2, L. Shcherbak3, and P. Fejchouk3
1 Charles University, Praha, Czech Republic 2 Academy of Sciences, Praha, Czech Republic
3 State University of Chernovtsi, Chernovtsi, Ukraine
HTM-P.5
Crystal Grain Size Dependence of Thermoelectric Properties for Sintered
PbTe by Spark Plasma Sintering Technique
S. Yoneda1, E. Ohta1, H. T. Kaibe2, I. Shiota3, K. Takahashi4, Y. Shinohara5, Y. Imai5, and I. A. Nishida5
1 Keio University, Kanagawa, 2 Tokyo Metropolitan University, Tokyo, 3 Kogakuin University, Tokyo, 4 Vacuum Metallurgical Co., Chiba, Japan 5 National Research Institute for Metals, Ibaraki; Japan
HTM-P.6
High-Temperature Oxidation Behavior of PbTe and Formation of Oxidation-Resistive
Glass Coating
Lidong Chen, Takashi Goto, Rong Tu, and Toshio Hirai, Tohoku University, Sendai, Japan
HTM-P.7
Influence of Potential Barriers on the Thermoelectric Properties of PbTe
Thin Films
Z. Dashevsky, Ben-Gurion University of the Negev, Beer-Sheva, Israel
HTM-P.8
Thermoelectric Power and Figure Merit of Pb-Sn-Te Ternary Alloy Thin Films
V. Damodara Das, Indian Institute of Technology, Chennai, Madras,, India
HTM-P.9
Comparisons of Thermoelectric Properties of n-type PbTe Fabricated
with Different Powder Processing Methods
J. S. Choi1, H. J. Kim1, H. C. Kim1, D.-B. Hyun2, and T. S. Oh1
1 Hong Ik University, Seoul, Korea 2 Korea Institute of Science and Technology, Seoul, Korea
SKU-P.1
Electronic Transport Properties of p-type CoSb3
Hiroaki Anno1, Hirofumi Tashiro2, Yasuhiro Notohara3, Tsutomu Sakakibara4, Kenji Hatada5, Kiyoichiro Motoya6, Hajime Shimizu5, and Kakuei Matsubara5
1 Science University of Tokyo in Yamaguchi, Onoda, Japan 2 Toyo Kohan
Co., Kudamatsu, Japan 3 Kyushu Matsushita Electric Co., Fukuoka, Japan
4 Aisin Cosmos R&D Co., Kariya, Japan
5 Science University of Tokyo in Yamaguchi, Onoda, Japan
SKU-P.2
Transport Properties of the Skutterudite CoSb3
K. Fess, E. Arushanov, W. Kaefer, Ch. Kloc, and E. Bucher, Universität Konstanz, Germany
SKU-P.3
Grain Size Effects on Thermoelectric Properties of Hot-Pressed CoSb3
H. Nakagawa1, H. Tanaka1, A. Kasama1, H. Anno2, and K. Matsubara2
1 JUTEMI, Ube, Japan 2 Science University of Tokyo in Yamaguchi, Onoda, Japan
SKU-P.4
Microstructures and Thermoelectric Properties of Spin-Cast Co0.97Cr0.03Sb3
Ribbons
T. Morimura, H. Kitagawa, M. Hasaka, and S. Kondo, Nagasaki University, Nagasaki, Japan
SKU-P.5
Thermoelectric Properties of Fe1-xNix Sb3 Ribbons
M. Hasaka, H. Kitagawa, K. Matano T. Morimura, and S. Kondo,
Nagasaki University, Nagasaki, Japan
NM-P.1
IR-Reflection Study of Sintered SiC/Al Thermoelectric Semiconductors
Toru Miyakawa1, Y. Okamoto2, T. Kawahara2, S. V. Ordin3, M. I. Fedorov3, and Y. Miida4
1 Dept. of Computor Science, Chiba Institute of Technology, Japan 2 Natl.Defense Academy, Yokosuka, Japan 3 A.F. Ioffe Physico-Technical Institute, St. Petersburg, Russia 4 Dept. of Information Network, Chiba Institute of Technology, Narashinoshi, Japan
NM-P.2
Synthesis of Zn4Sb3 Compound by PIES Method
A. Yamamoto1, T. Ichizuka2, H. Takazawa1, T. Ohta1, T. Kajikawa2
1 MITI, Energy Fundamentals Division, Tsukuba, Japan 2 Shonan Institute of Technology, Japan
NM-P.3
Low Temperature Thermoelectric Power of Amorphous Alloys Al-Y-Tm
K. Pekala, Warsaw University of Technology, Warsaw, Poland
NM-P.4
Transport Study of Hg - Based High Temperature Superconductors
H. Bougrine1,2, M. Pekala2,3, I. Sargankova4, and M. Ausloos1
1 SUPRAS, Inst. de Physique, Universite de Liege, Liege, Belgium 2 SUPRAS, Inst. d'Electricite Montefiore, Universite de Liege, Liege, Belgium 3 University of Warsaw, Warsaw, Poland 4 Slovak Academy of Sciences, Kosice, Slovakia
NM-P.5
Thermoelectric Studies of High Temperature Superconductors
M. Pekala1, and M. Ausloos2
1 University of Warsaw, Warsaw, Poland 2 Universite de Liege, Liege, Belgium
NM-P.6
MgAgAs Structure Type Solid Solutions as a New Thermoelectric Materials
L. P. Romaka, Yu. V. Stadnyk, A. M. Goryn, Yu. K. Gorelenko, and R. V. Skolozdra
Lviv State University, Lviv, Ukraine
NM-P.7
Electronic Transport in Amorphous Ni-P Alloys
F. Skoropad, and B. Stadnyk, State University "Lviv Polytechnic", Lviv, Ukraine
NM-P.8
Theoretical Investigation of Thermoelectric Coefficients of Disordered
Materials
S. K. Srivastava1, and J. B. Anjane2
1 Devi Ahilya University, Allahabad, India 2 North Maharastra University, Jalgaon, India
NM-P.9
Thermoelectric Properties of Transition-Metal Oxide NaCo2O4
H. Yakabe1, K. Kikuchi1, I. Terasaki2, Y. Sasago3, and K. Uchinokura3
1 Tokyo Gas Co, Tsurumi-Ku, Yokohama, Japan 2 Waseda University,
Tokyo, Japan
3 University of Tokyo, Tokyo, Japan
NM-P.10
Quantum Structural Diagram --- A Phenomenological Approach to New Thermoelectric
Materials
Gao Min and D. M. Rowe, University of Wales Cardiff, Cardiff, UK
NM-P.11
Thermoelectric Properties of YbAl3 Intermetallic Compound
D. M. Rowe, Gao Min, and V. L. Kuznetsov, NEDO Centre, Cardiff, UK
NM-P.12
Effects of One.Dimensional Quantum Structure on the Thermoelectric Figure
of Merit
H. Scherrer, and S. Scherrer, LMPSM, Ecole des Mines, Nancy,France
GEN-P.1
Grid-Independent Power Supply for Repeaters in Mobile Radio Networks Using
Photovoltaic/Thermoelectric Hybrid Systems
A Steinhüser, G. Hille, R. Kügele, W. Roth, and W. Schulz
Fraunhofer-Institut für Solarenergie-Systeme, Freiburg, Germany
GEN-P.2
Thermogenerators for Heat Wastes Utilization
L. I. Anatychuk, Yu. Yu. Rozver, K. Misawa, N. Suzuki,
Institute of Thermoelectricity, Chernovtsy, Ukraine
GEN-P.3
Functionally Graded Materials and New Prospects for Thermoelectricity Use
L. I. Anatychuk, and L. N. Vykhor, Institute of Thermoelectricity, Chernovtsy, Ukraine
GEN-P.4
Concept for Designing Angel RHU-Based Few-Watt RTG's to be Used Space Research
A. A. Pustovalov, V. V. Gusev, and M. I. Pankin, BIAPOS Company, Moscow, Russia
GEN-P.5
Thermoelectric Generator Modules and Blocks
L. I. Anatychuk, V. V. Razinkov, Yu. Yu. Rozver, and V. Ya. Mikhailovsky
Institute of Thermoelectricity, Chernovtsy, Ukraine
GEN-P.6
The Unificated Low-Temperature Thermoelectric Module for the Electric Power
Generators
L. P. Nebera, V. V. Gusev, M. I. Panknin, Y. P. Prilepo, A. A. Pustovalov, and N. N. Ryibkin
"BIAPOS" Company, Moscow, Russia
GEN-P.7
Eddy Thermoelectric Currents. Energetic Applications
L. I. Anatychuk, and V. T. Dimitrashchuk, Institute of Thermoelectricity, Chernovtsy, Ukraine
GEN-P.8
Eddy Thermoelectric Currents. Calculation and Control Methods
L. I. Anatychuk, and O. J. Luste, Institute of Thermoelectricity, Chernovtsy, Ukraine
GEN-P.9
Thermoelectric Semiconductor and Electrode - Fabrication and Evaluation
of SiGe / Electrode
Kazuhiro Hasezaki1, Akira Yamada,1 T.Tsukuda1, Shouji Nakajima2, Yan-Sheng Kang3 , and Masayui Niino3
1 Mitsubishi Heavy Industries, Nagasaki, Japan 2 Nagasaki Shipyard & Machinery Works,,Nagasaki,Japan 3 NAL, Kakuda Research Center, Japan
GEN-P.10
Thermogenerator for Underwater Wellhead
Philippe Dubourdieu1, Gery Tribou1, and Styve Byrne2
1 DCN Cherbourg,, France 2 TOTAL OIL MARINE, Aberdeen, Scotland, UK
GEN-P.11
The Use of Thermoelectric Converters for the Production of Electricity
from Biomass
Alfred Schmidt, and Markus Doloszeski, Technical University Wien, Austria
MEA-P.1
Film Manometric Thermocouple Transducer
R. Bychkovskyi, State University "Lviv Polytechnic", Lviv, Ukraine
MEA-P.2
The Thermocouple Temperature Instability
B. M. Goltsman, and Yu. L. Ravich,
A.F.Ioffe Physical-Technical Institute, St. Petersburg, Russia
MEA-P.3
Pulsed Study of Peltier Module: Application to Humidity Sensor
F. Pascal-Delannoy, A. Sackda, A. Giani, A. Foucaran, and A. Boyer
Université Montpellier II, Montpellier, France
MEA-P.4
Unsteady-State Thermoelectric Response for a Thermal Pulse in Semiconductors
G. N. Logvinov, Yu. G. Gurevich, O. P. Titov, and Yu. A. Drogobychsky
Institute of Thermoelectricity, Chernovtsy, Ukraine
MEA-P.5
Heat Flux Sensor for the Thermal Analysis Made of Semiconducting TE Material
E. Müller, L. Rauscher, G. Bähr, and J. Schilz, DLR, Köln, Germany
MEA-P.6
Features of Thermoelectromotive Force in Au/p-Ge Junctions
S. Ashmontas, J. Gradauskas, A. Suziedëlis, and G. Valusis,
Semiconductor Physics Institute, Vilnius, Lithuania
MEA-P.7
Nature of TE Anisotropy in Semiconductors at the Lower Temperatures
Eduard V.Osipov, and Algirdas Aulas, Semiconductor Physics Institute, Vilnius, Lithuania
MEA-P.8
Determination of Structural Changes and Temperature Distributions within
Crystals
V. P. Shafronyuk, Institute of Thermoelectricity, Chernovtsy, Ukraine
MEA-P.9
The Influence of Al or B on the Thermoelectric Power of Pt/Pt-Rh Thermocouples
H. Brodowsky, M. Ketzner, and C. Krey, University Kiel, Kiel, Germany
MEA-P.10
Thermoelectric Power in Binary and Ternary Alloys of the Systems Pd-Rh-Sn
and Pd-Rh-Sb
M. Albus, H. Brodowsky, and S. Rumpf, University Kiel, Kiel, Germany
MEA-P.11
Researches of the Thermoelectric Properties of the Refractory Metals with
the Aim of their Use in Thermometry
Igor P. Kurytnik, Uzhgorod State University, Uzhgorod, Ukraine
MEA-P.12
Possibilities of Transverse Thermoelectromotive Force in the Case of Optical
Medium
A. A. Ascheulov, L. N. Vikhor, I. V. Gutsul, A. I. Rarenko,
Institute of Thermoelectricity, Chernovtsy, Ukraine
FGM-O.1
Development of Functionally Graded Thermoelectric Materials in Japan -
The State of the Art (Invited)
Ichiro Shiota1, and Isao Nishida2
1 Kogakuin University, Tokyo, Japan 2 National Research Institute for Metals, Ibaraki, Japan
FGM-O.2
Preparation and Characterization of Segmented-Type Thermoelectric Branches
of Bi2Te3/PbTe
Y.Noda1, Y.-S.Kang2, and M.Niino2
1 Tohoku University, Sendai, Japan 2 NAL, Kakuda Research Center, Japan
FGM-O.3
Bismuth-Telluride / Iron-Disilicide Segmented Thermoelectric Elements:
Patterning, Preparation and Properties
J. Schilz1, L. Helmers1, Y. S. Kang2, Y. Noda2, and M. Niino2
1 DLR, Köln, Germany 2 NAL Kakuda Research Center, Japan
FGM-O.4
Preparation and Characterization of PbTe-FGM by Joining Melt-Grown Materials
Masaki Orihashi1, Y. Noda2, L. Chen3, Y.-S. Kang4, A. Moro4, and T. Hirai3
1 Institute for Materials Research, Tohoku University, Sendai, Japan 2 Faculty of Engineering, Tohoku University, Sendai University, Japan 3 Institute for Materials Research, Tohoku University, Sendai, Japan 4 NAL, Kakuda Research Center, Japan
FGM-O.5
Improved Materials for Thermoelectric Conversion (Generation)
Z. Dashevsky1, I. Drabkin2, V. Korotaev2, and D. Rabinovich1
1 Ben-Gurion University, Beer-Sheva, Israel 2 Institute of Rare Metals, Moscow, Russia
FGM-O.6
Thermoelectric Properties of Segmented Pb-Te Systems withth Graded Carrier
Concentrations
Y. Shinohara1, Y. Imai1, Y. Isoda1, I. A. Nishida1, H. T. Kaibe2, and I. Shiota3
1 National Research Institute for Metals, Tsukuba, Japan 2 Tokyo Metropolitan University Japan
3 Kogakuin University, Japan
CHA-O.9
Epitaxial Heterostrucures Based on Layered Thermoelectrics
Yu. A. Boikov, and V. A. Danilov, A.F. Ioffe Physico-Technical Institute, St. Petersburg, Russia
CHA-O.10
Bi2Te3 Thin Films Grown by MOCVD
A. Giani, F. Pascal-Delannoy, A. Sackda, A. Foucaran, and A.
Boyer,
Université Montpellier II, France
CHA-O.11
Thermoelectric Thin Film Deposition and Peltier Cooling
K. Sapru, Z. S. Tan, S. Ramachandran, and G. St. John,
Energy Conversion Devices Inc.,Troy, MI, USA
CHA-O.12
Crystalline Structure and Thermoelectric Properties Versus Growing Conditions
of Sputtering-Deposited (Bi1-xSbx)2Te3 Films with 0 x 0.85
M. Stölzer, V. Bechstein, and J. Meusel, Martin Luther Universität, Halle, Germany
CHA-O.13
Structural and Electrical Characterization of Thin Bi2Te3 Films Grown with
MBE
S. Kikuchi1, Y. Iwata2 E. Hatta3, J. Nagao4, and K. Mukasa3
1 Hokkaido Tokai University, Sapporo, Japan 2 Aisin Cosmos R&D
Co., Kariya, Japan
3 Hokkaido University, Sapporo, Japan 4 Hokkaido National Industrial Research
Institute, Sapporo, Japan
CHA-O.14
Thin Films of Bismuth Telluride Grown by Hot Wall Epitaxy Technique and
Thermoelectric Properties
J. C. Tedenac1, S. Dal Corso1, M. Ferhat1, B. Liautard1, S. Charar2, and M. Averous2
1 LPMC, Montpellier, France 2 GES UPRESA, Montpellier, France
CHA-O.15
Transport Properties of Bi2Te2.4Se0.6 Thin Films
V. Damodara Das, and S. Selvaraj, Indian Institute of Technology, Chennai, Madras, India
PL-5
Rare Earth Thermoelectrics (Invited)
G. D. Mahan, University of Tennessee, Knoxville TN, USA
PL-6
Current State of Peltier Cooling (Invited)
John Stockholm, Marvel Thermoelectrics, Vernouillet, Marsinval, France
NM-O.7
To Be Or Not To Be: Low Dimensional Systems, Quasicrystals and Quasicrystalline
Approximants as Potential Thermoelectric Materials (Invited)
Terry M. Tritt, Clemson University, Clemson SC, USA
NM-O.8
New Chemically and Structurally Complex Bismuth Tellurides as Advanced
Thermoelectrics (Invited)
Mercouri G. Kanatzidis1, Duck-Young Chung1, Xiangzhong Chen1, Tim Hogan2, Jon Schindler2, Carl Kannewurf2
1 Michigan State University, East Lansing MI, USA 2 Northwestern University, Evanston IL, USA
NM-O.9
Crystal Structure and Thermoelectric Properties of the Mixed Layered Compounds
of the (GeTe)N(Bi2Te3)M Homologous Series
L. E. Shelimova1 , O. G. Karpinsky1, M. A. Kretova1, E. S. Avilov1 J.-P. Fleurial2
1 A.A.Baikov Institute of Metallurgy, Moscow, Russia 2 JPL, Pasadena, USA
NM-O.10
Transport Properties of Zirconium-Nickel-Tin Based Compounds
Ctirad Uher1, Siqing Hu1, Baoxing Chen1, Daonald T. Morelli2, Gregory P. Meisner2
1 University of Michigan, Ann Arbor MI, USA
2 GM Research and Development Center, Warren MI, USA
NM-O.11
Thermoelectric Properties of MNiSn (M=Ti, Zr) Single Crystals and Related
Alloys
W. Käfer, K. Fess, Ch. Kloc, K. Friemelt and E. Bucher, Universität Konstanz, Germany
NM-O.12
Thermoelectric Evaluation of Doped ZrTe5 and HfTe5 Compounds
R. L. Littleton Jr.1, C. R. Feger2, M. L. Wilson1, A. Johnson1, D. T. Verebelyi1, M. Fakhruddin1, F. Levy3, J. Kolis2,4, S.-J. Hwu2,4, and T. M. Tritt4
1 Department of Physics and Astronomy, Clemson University, Clemson SC, USA 2 Department of Chemistry, Clemson University 3 Institut de Physique Appliquee, Lausanne, France 4 Materials Science and Engineering Department, Clemson University
PEL-O.7
Heterostructure Integrated Thermionic Refrigeration
Ali Shakouri, and John E. Bowers, University of California, Santa Barbara CA, USA
PEL-O.8
Thermoelectric Microcoolers for Thermal Management Applications
J.-P. Fleurial, A. Borshchevsky, M. A. Ryan, W. Phillips, E.
Kolawa, and R. Ewell,
JPL, Pasadena CA, USA
PEL-O.9
Micro Thermoelectric Coolers for Integrated Applications
Lance Rushing, Ali Shakouri, Patrick Abraham, and John E. Bowers
University of California, Santa Barbara CA, USA
PEL-O.10
Fast Thermoelectric Microcoolers
Vadim Leopoldovich Galperin, MGNPP "OSTERM", St. Petersburg, Russia
PEL-O.11
Fabrication of a Miniature Thermoelectric Module with Elements Composed
of Sintered Bi-Te Compounds
Matsuo Kishi, Hiroshi Okano, Hirohiko Nemoto, Minao Yamamoto, and Yoshifumi Yoshida
Seiko Instruments Inc, Chiba, Japan
PEL-O.12
Experiment on Peltier Element and High Temperature Superconducting Conductor
Near 77 K for a Current Lead of Superconducting System
S. Yamaguchi1, H. Nakamura1, K. Ikeda1, S. Tobise2, K. Kuroda2, K. Koumoto2, T. Sakurai3, I, Yoshida3, S. Tanuma3, and H. Okumura4
1 National Institute for Fusion Science, Nagoya, Japan 2 Nagoya University,
Nagoya; Japan
3 Iwaki Meisei University, Iwaki, Japan 4 Matsusaka University, Matsusaka,
Japan
PEL-O.13
New Physical Point of View on the Peltier Effect
O. Yu. Titov1, G. Gonzalez de la Cruz1, Yu. G. Gurevich1, and G. N. Logvinov2
1 CINVESTAV, Mexico D.F, Mexico
2 Ternopil Pedagogical State University, Ternopil, Ukraine
PEL-O.14
A New Concept of Porous Thermoelectric Module Using a Reciprocating Flow
for Cooling/Heating System (Numerical Analysis for Heating System)
Shigeru Tada, Ryozo Echigo, and Hideo Yoshida, Tokyo Institute of Technology, Tokyo, Japan
PD - 1
Thermoelectric Thin Film Sensors
J. Schieferdecker, Heimann Optoelectronics GmbH, Wiesbaden, Germany
TE Microsystems in the Consumer Market
A. W. van Herwaarden, Xensor Integration, 2601 DE Delft, The Netherlands
TE Microsystems in the IC Technology
F. Völklein, FHS Wiesbaden, Rüsselsheim, Germany
Use of TE Microsystems for Material Characterization
B. Köhler, Institute for Physical High Technology Jena, Germany
Microcalorimetry Based on the Seebeck Effect
PD - 2
Microcooler
M. Stölzer, Martin Luther University, Halle, Germany
Thin Film Peltier Element: Prospects and Limits
Hylan B. Lyon, Marlow Industries, Dallas, TX, USA
Demands of the Market for Microcoolers, Status and Trends
J.-P. Fleurial, JPL, CalTech, Pasadena, CA, USA
Thermal Management and Thermoelectric Microcoolers, Including the Impact
of Getting ZT>2
M. Stordeur, DTS GmbH, Halle, Germany
Thin Film TE Generators Based on State-of-the-Art Materials
CHA-P.1
Peculiarities of the Figure of Merit Temperature Dependence in n-Bi2(Te,Se)3
Solid Solution at Low Charge Carrier Concentration
Lidiya N. Luk'yanova, G. T. Alekseeva, P.P Konstantinov, V. A. Kutasov
A.F.Ioffe Physical-Technical Institute, St.Petersburg, Russia
CHA-P.2
Electrophysical Properties of Bi2Te2.85Se0.15 Single Crystals Doped with
Copper
T. E. Svechnikova1, N. M. Maksimova1, and P. P. Konstantinov2
1 Baikov Institute of Metallurgy, Moscow, Russia 2 A.F. Ioffe Institute, St. Petersburg Russia
CHA-P.3
Electrophysical Properties of Sb2Te3 Single Crystals Doped with Tin, Selenium,
Bismuth
L. D. Ivanova, Yu. V. Granatkina, and Yu. A. Sidorov
A. A. Baikov Institute of Metallurgy, Moscow, Russia
CHA-P.4
Optimization of Hot-Pressed n-type SbI3-Doped Bi2Te2.85Se0.15 Compounds
J. Seo1, C. Lee1, K. Park2, M. Ju2, J. Kim
1 Inha University, Nam-gu, Inchon , Korea 2 Chung-ju National University,
Korea
3 Korea Academy of Industrial Technology, Siheung, Kyunni-do , Korea
CHA-P.5
Influence of Growth Conditions on Structure, Composition Homogeneity and
Mechanical Properties of Thermoelectric Crystals for Coolers
V. T. Bublik, V. V. Karataev, V. B. Osvenski, T. B. Sagalova, V. B. Ufimtsev, and A. M. Frolov
Institute of Chemical Problems for Microelectronics, Moscow , Russia
CHA-P.6
Peculiarities of Production n-Bi2(Te, Se)3 and p-(Bi, Sb)2Te3
in Condition of Structural Superplasticity
O. B. Sokolov, S. Ya. Skipidarov, N. J. Duvankov, and E. V. Zaitsev,
"Nord" Co, Moscow Russia
CHA-P.7
Effects of Reduction Treatment and Te Doping on Thermoelectric Properties
of
(Bi1-xSbx)2Te3 Fabricated by Mechanical Alloying
H. C. Kim1, J. S. Choi1, H. J. Kim1, D.-B. Hyun2, and T. S. Oh1
1 Hong Ik University, Seoul Korea 2 Korea Institute of Science and Technology, Seoul ,Korea
CHA-P.8
Structural Chemical Characterization of Semiconductors Using the Seebeck
and Thermal Conductivity Quality Factors Qs and Qk.
Donald Tuomi, Tuomi Associates, Arlington Hts., IL, USA
CHA-P.9
Peltier Cooling of Superconducting Electronics
J. W. Straehle1, K. -J. Klingesberger1 , R. P. Huebener1, S.
Rath1, S. Kemmler-Sack1,
Chr. A. Doettinger1, and S. G. Doettinger2
1 Universität Tübingen, Tübingen, Germany
2 Department of Applied Physics, Stanford University, Stanford CA, USA
CHA-P.10
A Geometric Effect of Electrical Conductivity and Hall Coefficient of InSb
in a Strong Magnetic Field
Hiroaki Nakamura1, Kazuaki Ikeda2, Keiji Sawada3, Satarou Yamaguchi1
1 National Institute for Fusion Science, Furo-cho, Chikusa-ku, Nagoya , Japan 2 The Graduate University for Advanced Studies, Japan 3 Shinshu University,Shinshu, Japan
CHA-P.11
Structural and Electrical Properties of Flash Evaporated (Bi0.4Sb0.6)2Te3
Alloy Thin Films
V. Damodara Das, P. Gopal Ganesan, Indian Institute of Technology, Chennai, Madras, India
CHA-P.12
Flash Evaporated Junction (Bi2Te3-Bi2Se3)(n) / (Bi2Te3-SbTe3)(p)
Used as Micro-Peltier Module
A. Foucaran, A. Sackda, A. Giani, F. Pascal-Delannoy, and A. Boyer
Université Montpellier II, Montpellier, France
CHA-P.13
Bismuth-Telluride Films Prepared by Vacuum-Arc Plasma Method for Thermo-Electrical
Transducers (TET)
I. Gasenkova, Belarus Academy of Sciences, Minsk, Belarus
CHA-P.14
Nernst Coefficient and Thermoelectric Power of InSb in a Strong Magnetic
Field
K. Ikeda1, Hiroaki Nakamura2, Keiji Sawada3, Satarou Yamaguchi2
1 The Graduate University for Advanced Studies, Chikusa-ku, Nagoya, Japan 2 National Institute for Fusion Science, Chikusa-ku, Nagoya Japan 3 Shinshu University, Shinshu, Japan
BAA-P.1
Determination of the Longitudinal Thermo-Galvanomagnetic Coefficients
H. J. Goldsmid1,2 , E. H. Volckmann1
1 Marlow Industries, Dallas TX, USA 2 Home address: Kingston Beach, Tasmania, Australia
BAA-P.2
Observation of the Grain Size Influence on the Thermoelectric Properties
of Polycrystalline Bismuth - Antimony Alloys
X. Devaux, F. Brochin, A. Dauscher, B. Lenoir, R. Martin-Lopez, H. Scherrer, and S. Scherrer
Laboratoire de Physique des MatŽriaux, Ecole des Mines, Nancy, France,
BAA-P.3
Thermoelectric Properties of Bi-Sb Sintered Alloys Using Plasma-Treated
Powder
Yong Hoon Lee, Ryuichi Isobe, Masato Yomura, Ikuo Nakamoto, and Tsuyoshi Koyanagi
Yamaguchi University, Tokiwadai, Ube, Japan
SIL-P.1
Electronic and Related Properties of Ru2Si3 and Ru2Ge3
V. E. Borisenko1, A. B. Filonov1, D. B. Migas1, V. L. Shaposhnikov1 , H. Lange2, W. Henrion2, and A. Heinrich3
1 State University of Informatics and Radioelectronics, Minsk, Belarus
2 Hahn-Meitner Institute, Berlin, Germany 3 IFW Dresden, Germany
SIL-P.2
Rhenium Silicide Thin Films: Structural Analysis of the ReSi2- Phase
W. Pitschke1, A. Heinrich1, J. Schumann1, and A.T. Burkov2
1 IFW Dresden, Germany 2 A.F.Ioffe Physico-Technical Institute, St. Petersburg, Russia
SIL-P.3
Thermoelectric Properties of Doped Iridium Silicide Thin Films
R. Kurt, W. Pitschke, A. Heinrich, J. Schumann, and K. Wetzig, IFW Dresden, Germany
SIL-P.4
Ageing Properties of Thermally Sprayed Iron Disilicide
K. Schackenberg1, J. Schilz1, E. Müller1, W. A. Kaysser2, G. Langer2, and E. Lugscheider2
1 DLR, Köln, Germany 2 RWTH, Aachen, Germany
SIL-P.5
Effect of Powder Treatment by Mechanofusion Process on Thermoelectric Properties
of FeSi2 System
Takuji Kita1, Kiyoshi Nogi2, Hiroshi Nagai1, and Mizuki Kohno1
1 Osaka University, Suita Japan 2 Joining and Welding Research Institute, Osaka University, Ibaraki, Japan
SIL-P.6
Effect of Dispersed Si-Phase on the Thermoelectric Properties of FeSi2
Prepared by Mechanical Alloying and Sintering
Byong-Gue Min, and Dong-Hi Lee, Yonsei University, Seoul, Korea
SIL-P.7
Physical-Chemical Properties of Contact Layer Between Higher Manganese
Silicide and Nickel
L. I. Petrova1, L. D. Dudkin1, V. S. Khlomov1, M. I. Fedorov2,
V. K. Zaitsev2, and
F. Yu. Solomkin2
1 A. A. Baikov Institute, Moscow, Russia 2 A.F. Ioffe Institute, St. Petersburg, Russia
FGM-P.1
Evaluation of Monolithic and Segmented Thermoelectric Materials by Using
a Large-Temperature-Span Apparatus
Y. S. Kang1, S. Moriya1, K. Kisara1, M. Niino1, Y. Noda2, L. Chen2, T. Sudo3
1 NAL Kakuda Research Center, Kakuda, Japan 2 Tohoku University ,
Japan
3 National Space Development Agency: Japan
FGM-P.2
Catalytic Furnaces with Thermogenerators
L. I. Anatychuk, and V. Ya. Mikhailovsky, Institute of Thermoelectricity, Chernovtsy, Ukraine
FGM-P.3
Low-Temperature Thermoelectric Cooling Under Optimal Inhomogeneity of Legs
at the Optimal Magnetic Field
L. I. Anatychuk, and L. N. Vikhor, Institute of Thermoelectricity, Chernovtsy, Ukraine ??Autor
PEL-P.1
Quality Testing of Two-Stage Thermoelectric Modules
Solomon M. Gorodetskiy1, and Richard J. Buist2
1 Cryotherm Company, St. Petersburg, Russia 2 TE Technology, Inc., Traverse City, MI , USA
PEL-P.2
Peltier Heat as a Volume Property and Optimization of Working Regimes of
Thermoelements in Real Conditions
Stanislav V. Ordin, A .F. Ioffe Physical-Technical Institute, St.Petersburg, Russia
PEL-P.3
Precise Method and Equipment for Thermoelectric Cooling Modules Parameters
Measurement
L. I. Anatychuk, N. I. Varich, and A. A. Shchedrin,
Institute of Thermoelectricity, Chernovtsy, Ukraine
PEL-P.4
The Rapid Method of Defining the Quality of Multistage Thermoelectric Cooler
Based on Measurements of Voltage from Every Stage
I. A. Drabkin, and O. Jouravlev,
Institute of Chemical Problems for Microelectronics, Moscow Russia
PEL-P.5
Simple Formulas To Express Maximum Temperature Difference for Two-Stage
Thermoelectric Cooling Modules
Dow-Bin Hyun1, N. V. Kolomoets1, Jae-Dong Shim1, and Tae-Sung Oh2
1 Korea Institute of Science and Technology, Seoul, Korea 2 Hong Ik University, Seoul, Korea
PEL-P.6
Novel High Performance Thermoelectric Microcoolers with Diamond Substrates
Jean-Pierre Fleurial1, and V. Semeniuk2
1 JPL Pasadena CA, USA 2 Thermion Company, Odessa, Ukraine
PEL-P.7
The Effectiveness of Water Vapor Sealing Agents When Used in Application
with Thermoelectric Cooling Modules
Michael J. Nagy, TE Technology, Inc., Traverse City MI, USA
PEL-P.8
A Method of Diode Parallel to Improve the Reliability of the Thermoelectric
Coolers
Zhang Jianzhong, Zhang Hua, Wang Tiemin, Chen Song, and Ji Zhaonan
Tianjin Institute of Power Sources, Tianjin, P.R. China
PEL-P.9
Enhanced Thermoelectric Refrigeration System Cop Through Low Thermal Impedance
Liquid Heat Transfer System
Greame Attey, Hydrocool Pty Ltd., Fremantle, Australia
PEL-P.10
Efficiency Improvement of Double-Stage Thermoelectric Modules Through the
Use of Metallic Enhancement
Richard L. Chamberlin, Net-Lab Science Network, Kansas City, Missouri, USA
PEL-P.11
First Result on the Realization of Small Thermoelectric Cooling
Aman Mostavan, Aries P. Haryono, Tony Surjatmo, and Wahyu Sujatmiko
Institute of Technology, Bandung, Indonesia
PEL-P.12
Thermoelectric Cooler for Medicine Storage
A. A. Aivazov, Yu. I. Shtern, B. G. Budaguan, and K. B. Makhrachev
Moscow Institute of Technology, Zelenograd, Russia
PEL-P.13
Refrigeration by Combined Thermoelectric and Water Evaporative Cooling
Sujoy K. Guha, Indian Institute of Technology, New Delhi, India
PEL-P.14
Thermoelectric Coolers with Vortex Tube
G. A. Smolyar, Institute of Thermoelectricity, Chernovtsy, Ukraine
PEL-P.15
Thermoelectric Cooling Devices Based on Bismuth Telluride Alloys in the
USSR and Russia: Data of the Patent Documentation
B. Sh. Malkovitch, "Cryotherm" Company,.St. Petersburg, Russia
PEL-P.16
Modelling and Minimisation of Intercascade Thermal Resistance in Multi-Stage
Thermoelectric Coolers
V. A. Semeniouk, and D. B. Bezverkhov, State Academy of Refrigeration, Odessa, Ukraine
GEN-O.7
Thermoelectric Research and Development Activity at MITI:
Research on Thermoelectric Generator Using Low Calorie Exhaust Gas (Invited)
Toshitaka Ohta, AIST,MITI, Energy Fundamentals Division, Tsukuba, Japan
GEN-O.8
Calculation of Thermoelectric Power Generation Performance Using Finite
Element Analysis
Paul G. Lau, and Richard J. Buist, TE Technology, Traverse City MI, USA
GEN-O.9
Effect of Electrons and Phonons Temperature Mismatch on Thermoelectric
Properties of Semiconductors
Lev P. Bulat, State Academy of Refrigeration, St. Petersburg, Russia
Daniel T. Allen, and Jerzy Wonsowski, Hi-Z Technology Inc., San Diego, CA, USA
GEN-O.11
Low Power Thermoelectric Generator - Self-Sufficient Energy Supply for
Microsystems
M. Stordeur, and I. Stark, D.T.S. GmbH, Halle, Germany
GEN-O.12
Thermoelectric and Heat Transfer Properties in a New-Type Module Composed
of Hamburger-Type Thermoelectric Elements
Y. Tanji1, S. Moriya1, M. Niino1, Y. Nakagawa2, M. Yasuoka2, R. Sato3, and Y. Tada4
1 NAL Kakuda Research Center, Japan 2 Tohoku Institute of Technology,
Sendai, Japan
3 Tohoku Gakuin University, Tagajo, Japan 4 JAST, Sendai, Japan,
SIL-O.1
Semiconducting Transition Metal Silicides: Electronic Structure, Electrical
and Thermoelectrical Properties (Invited)
H. Lange, Hahn-Meitner-Institut, Berlin, Germany
SIL-O.2
Thermoelectric Properties of Magnesium Silicide Processed by Powdered Elements
Plasma Activated Sintering Method
Takenobu Kajikawa1, Keisuke Shida1, Sunao Sugihara1, Mamoru Ohmori2, and Toshio Hirai2
1 Shonan Institute of Technology, Fujisawa, Japan 2 Tohoku University, Sendai, Japan
SIL-O.3
Temperature Dependence of Thermal Conductivity for Mg2Si1-xGex Solid Solution
Hiromasa T. Kaibe1, Yukihiro Isoda2, Isao A. Nishida2, and Yasutoshi Noda3
1 Tokyo Metropolitan University, Tokyo, Japan 2 National Research Institute for Metals, Tsukuba, Japan 3 Tohoku University, Sendai,Japan
SIL-O.4
Influence of Production Parameters on the Thermoelectric Properties of
Mg2Si
M. Riffel1, and J. Schilz2
1 LMPSM, Ecole des Mines, Nancy, France 2 DLR, Köln, Germany
SIL-O.5
Iron Disilicide Monocrystals: Crystal Growth and Transport Properties
A Heinrich, IFW Dresden, Germany
SIL-O.6
Phonon Drag Effects in -FeSi2
M. I. Fedorov, V. K. Zaitsev, Yu. V. Ivanov, V. V. Popov, and M. A. Khazan
A. F. Ioffe Physical-Technical Institute, St. Petersburg, Russia
SIL-O.7
Fabrication of Ternary Iron Disilicides as Thermoelectric Semiconductors
by Sintering Using Elemental Powders
Yoriko Ohta1, Siji Miura2, and Yoshinao Mishima2
1 Dept. of Materials Science and Engineering, Tokyo Institute of Technology, Yokohama, Japan
2 Precision and Intelligence Laboratory, Tokyo Institute of Technology, Yokohama, Japan