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*Award marks are B:Bachelor, M:Master, D:Doctor, G:General |
Entry No |
Presentation |
Date |
Award |
Presenter |
Affiliation |
Paper Title |
Aug. 29Poster presentations
Clock Tower Hall, 2nd Floor
18:00-20:00 |
Chair : Neophytos NEOPHYTOU University of Warwick |
Chair : Ruoming TIAN Toyota Physical and Chemical Research Institute |
2229 |
A5-P29-001 |
Aug. 29 |
*M |
Pei Se GAN |
School of Material Sciences, Graduate School of University of Tsukuba,MANA, National Institute for Materials Science (NIMS) |
Effect of Crystal-Grain Size and Spark Plasma Sintering Temperature on the Thermoelectric Properties of Zinc-Doped Chalcopyrite |
3011 |
A5-P29-002 |
Aug. 29 |
|
Haruno KUNIOKA |
National Institute of Advanced Industrial Science and Technology (AIST),Department of Material Science and Technology, Tokyo University of Science |
Thermoelectric properties of As-based 122 systems |
2314 |
A5-P29-003 |
Aug. 29 |
*D |
Qingfneg SONG |
State Key Laboratory of High Performance Ceramics and Superfine Microstructure, Shanghai Institute of Ceramics, Chinese Academy of Science,University of Chinese Academy of Sciences, Beijing |
Quaternary Pseudocubic Cu2TMSnSe4 (TM = Mn, Fe, Co) Chalcopyrite Thermoelectric Materials |
2333 |
A5-P29-004 |
Aug. 29 |
|
Naohito TSUJII |
National Institute for Materials Science, Tsukuba, Ibaraki 305-0047 |
Thermoelectric Properties of Thiospinel Cu0.5Fe1.5SnS4 and Zn0.5Fe1.5SnS4 |
3726 |
A5-P29-005 |
Aug. 29 |
*D |
Takashi MATSUI |
Department of Physics, Graduate School of Science, Kobe University |
Cu-NMR study of tetrahedrite Cu12Sb4S13 |
3153 |
A5-P29-006 |
Aug. 29 |
|
Takeshi SOUMA |
National Institute of Technology, Kagawa College |
Fabrication and thermoelectric properties of NiAl intermetallic compounds grown by Al self-flux method |
2492 |
A5-P29-007 |
Aug. 29 |
*G |
Gabin P. L. GUELOU |
National Institute for Materials Science (NIMS), Japan |
Effect of magnetic ion doping on the thermoelectric properties of n-type and p-type magnesium antimonide materials |
2581 |
A5-P29-008 |
Aug. 29 |
*D |
Wei ZHOU |
School of Materials Science, Japan Advanced Institute of Science and Technology |
Cu2Sn1-xMxS3 Nanoparticles for Sustainable Thermoelectrics |
2631 |
A5-P29-009 |
Aug. 29 |
|
Qinghua TIAN |
School of Metallurgy and Environment, Central South University, Changsha, China |
Synthesis and characterization of antimony oxide powders via a ultrasonic spray roasting method |
2286 |
A5-P29-010 |
Aug. 29 |
|
Yuichi MICHIUE |
International Center for Materials Nanoarchitectonics, National Institute for Materials Science |
Structural Characterization of a Secondary Phase in Ga Doped ZnO Thermoelectric Materials |
3824 |
A5-P29-011 |
Aug. 29 |
|
Chang-Hyun LIM |
Korea Institute of Ceramic Engineering and Technology,Yonsei University |
Thermoelectric Properties of Ca3Co4O9–RGO Composites |
3683 |
A5-P29-012 |
Aug. 29 |
*M |
Atsuki TOMEDA |
Osaka university |
Dependence of thermoelectric properties of Ga-doped ZnO films on various crystal properties |
3312 |
A5-P29-013 |
Aug. 29 |
|
Seiji MITANI |
National Institute for Materials Science,University of Tsukuba |
Preparation and thermoelectric properties of Fe-MgO nanocomposite films |
2660 |
A5-P29-014 |
Aug. 29 |
|
Kyeongsoon PARK |
Sejong University |
Thermoelectric Performance of p-type Ca3Co4O9/xZrO2 Composites for Solid-state Thermoelectric Applications |
2509 |
A5-P29-015 |
Aug. 29 |
|
Young Soo LIM |
Department of Materials System Engineering, Pukyong National University, Busan 48513, Korea |
Thermoelectric properties of interface-controlled TiO2-RGO nanocomposites |
2345 |
A5-P29-016 |
Aug. 29 |
|
Young Soo LIM |
Pukyong National University |
Thermoelectric properties of BixSb2-xTe3 compounds farbicated by an oxide-reduction and spark plasma sintering |
2215 |
A5-P29-017 |
Aug. 29 |
*G |
Quansheng GUO |
National Institute for Materials Science |
Thermoelectric Properties of Manganese Monotelluride and Manganese Ditelluride based Materials |
3261 |
A5-P29-018 |
Aug. 29 |
|
Il-Ho KIM |
Korea National University of Transportation |
Thermoelectric Properties of Cu-doped Bi2-xSbxTe3 Prepared by Encapsulated Melting and Hot Pressing |
3255 |
A5-P29-019 |
Aug. 29 |
|
Il-Ho KIM |
Korea National University of Transportation |
Charge Transport and Thermoelectric Properties of Partially Double-filled P-type (R1-zR’z)yFe4-xCoxSb12 (R or R’: Pr, Nd, Yb) Skutterudites |
2791 |
A5-P29-020 |
Aug. 29 |
|
Yongkyu LEE |
Center for Nanoparticle Research, Institute for Basic Science (IBS),School of Chemical and Biological Engineering, Seoul National University |
High Thermoelectric Performance of Hole-doped Polycrystalline Sn1-xPbxSe |
3877 |
A5-P29-021 |
Aug. 29 |
|
Qian ZHANG |
Harbin Institute of Technology (Shenzhen) |
Thermoelectric Properties of Transition Metals-doped PbSe |
3804 |
A5-P29-022 |
Aug. 29 |
*D |
Minsoo PARK |
Korea Institute of Materials Science,Materials Science and Engineering,Pusan National University |
The effect of the nanopowder size on the thermoelectric properties of nanostructured Bi2Te3−xSex bulk materials |
2178 |
A5-P29-023 |
Aug. 29 |
*D |
POONAM KHADE |
Novel Materials Research Laboratory, Department of Physics, Barkatullah University, Bhopal-462026, India |
Enhanced Thermoelectric Performance of (1-x)Bi2Te3-(x)Bi2Se3 Composites Prepared by Mechanical alloying and Hot-Pressing |
2238 |
A5-P29-024 |
Aug. 29 |
|
Sang Tae LEE |
Department of Materials System Engineering, Pukyong National University, Busan 48513, Korea |
Thermoelectric properties of polycrystalline Sn1-xSe compounds |
3136 |
A5-P29-025 |
Aug. 29 |
*D |
Joonil CHA |
Center for Nanoparticle Research, Institute for Basic Science (IBS), Gwanak-gu, Seoul 08826, South Korea,School of Chemical and Biological Engineering and Institute of Chemical Processes, Seoul National University, Gwanak-gu, Seoul 08826, South Korea |
Thermoelectric properties of n-type co-doped SnSe materials |
2245 |
A5-P29-026 |
Aug. 29 |
|
Lijun WANG |
Department of Materials Science and Engineering, China University of Petroleum, Beijing, China |
Enhanced thermoelectric performance of SnTe via micro/nano-composite with CdTe |
2984 |
A5-P29-027 |
Aug. 29 |
*G |
Kedar HIPPALGAONKAR |
Institute of Materials Research and Engineering, Agency for Science Technology and Research |
Thermoelectric physics in 2D MoS2 |
2564 |
A5-P29-028 |
Aug. 29 |
*D |
Naoki SATO |
The University of Tokyo |
Thermoelectric Properties of Ternary Sulfides with Open Tunnel-Like Channel Structure |
2516 |
A5-P29-029 |
Aug. 29 |
|
Ui Gyoeng HWANG |
Department of Materials System Engineering, Pukyong National University, Busan 48513, Korea |
Thermoelectric transport properties of CuxBi2Te2.7Se0.3 compounds |
2511 |
A5-P29-030 |
Aug. 29 |
|
Ichiro IMAE |
Department of Applied Chemistry, Graduate School of Engineering, Hiroshima University |
Synthesis and Thermoelectric Properties of Polythiophenes Having Alkoxy and Alkyl Substituents |
3393 |
A5-P29-031 |
Aug. 29 |
*G |
Shermin Simin GOH |
Institute for Materials Research and Engineering (IMRE), A*STAR, Singapore |
Coordination Compounds for Thermoelectric Applications |
2715 |
A5-P29-032 |
Aug. 29 |
|
Hirotaka KOJIMA |
Nara Institute of Scienece and Technology |
Giant Seebeck Effect in Organic Semiconductors: A DFT Study of the Vibronic Coupling |
3643 |
A5-P29-033 |
Aug. 29 |
|
Soon-Mok CHOI |
School of Energy, Materials and Chemical Engineering, Korea University of Technology and Education, Cheonan 31253, Korea, |
Thermoelectric properties for n-type Cu-doped Bi2Te3 films |
3696 |
A5-P29-034 |
Aug. 29 |
*M |
Tatsuhiko TANIGUCHI |
Osaka Univ. |
Growth-method-dependent thermoelectric properties of epitaxial Ge/Si(001) thin films |
3259 |
A5-P29-035 |
Aug. 29 |
*G |
Yen-Ju WU |
National Institute for Materials Science |
Key Descriptors to Predict and Design the High Interface Thermal Resistance System |
2439 |
A5-P29-036 |
Aug. 29 |
|
Hongliang YANG |
State Key Laboratory of High Performance Ceramics and Superfine Microstructure, Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050, China,University of Chinese Academy of Sciences, 19 Yuquan Road, Beijing 100049, China |
Molecular dynamics simulations of phonon transport of the part-crystalline part-liquid materials |
3005 |
A5-P29-037 |
Aug. 29 |
|
Naomi YAMASHITA |
Research Institute of Electronics, Shizuoka University,Graduate School of Science and Technology, Shizuoka University |
Simulation of the periodic electron-beam heating in a thermal diffusivity measurement tecchnique for nanowire materials |
3800 |
A5-P29-038 |
Aug. 29 |
*G |
Hirokazu TAKAKI |
Faculty of Pure and Applied Sciences, University of Tsukuba |
First-principles calculations of phonon and magnon coupling effects for thermoelectric properties of a magnetic semiconductor CuFeS2 |
3359 |
A5-P29-039 |
Aug. 29 |
|
Jae Hyun YUN |
Department of Applied Physcis and Institute of Natural Science, Kyung Hee University, Yong-in, Gyeong-gi 17104, Korea |
Thermoelectric properties near quantum critical point |
2563 |
A5-P29-040 |
Aug. 29 |
|
Kazuaki KOBAYASHI |
International Center for Materials Nanoarchitectonics, National Institute for Materials Science |
Electronic and Lattice Properties of Si- and Te-doped CoSb3 Compounds under High Pressures |
2036 |
A5-P29-041 |
Aug. 29 |
*D |
Jiajun SHEN |
School of Materials Science and Engineering, Zhejiang University |
Enhanced phonon scattering by Hf-Ti co-doping in FeNbSb based half-Heusler compounds |
2938 |
A5-P29-042 |
Aug. 29 |
*G |
Yohei KAKEFUDA |
National Institute for Materials Science |
Microscopic thermal conductivity analysis of two-dimensional FexTiS2 single crystals |
3106 |
A5-P29-043 |
Aug. 29 |
*G |
Kazuya OKAMOTO |
Tokyo Univ. of Sci., Yamaguchi |
Film Thickness Dependence of In-Plane and Through-Plane Thermal Conductivity for PEDOT-PSS by an AC Calorimetric Method |
3386 |
A5-P29-044 |
Aug. 29 |
*M |
Shimpei KUWAHARA |
Graduate School of Engineering, Osaka University |
Thermoelectric properties of SnO with low thermal conductivity |
2599 |
A5-P29-045 |
Aug. 29 |
*G |
Aijun ZHOU |
State Key Laboratory of Electronic Thin Films and Integrated Devices, School of Microelectronics and Solid-state Electronics, University of Electronic Science and Technology of China, Chengdu 610054, China |
Design, Assembly and Testing of an Integrated Thermoelectric Brick Recovering Residual Heat of Sunlight for Outdoor Building and Tiling Uses |
2661 |
A5-P29-046 |
Aug. 29 |
*G |
Norifusa SATOH |
National Institute for Materials Science |
Organic π-type thermoelectric module patterned by photolithography |
2817 |
A5-P29-047 |
Aug. 29 |
*D |
Pandiyarasan VELUSWAMY |
Research Institute of Electronics, Shizuoka University, Hamamatsu, Japan |
High-performance Multifunctional Nanostructured ZnO and Their Composite Fabric: Towards Wearable Device Applications |
3505 |
A5-P29-048 |
Aug. 29 |
*D |
Wanthana SILPAWILAWAN |
School of Engineering, Graduate School of University of Osaka |
Thermomechanical Properties and High-temperature Stability of FeNbSb-based p-type half-Heusler Compound |
3489 |
A5-P29-049 |
Aug. 29 |
*M |
Junpei IWANAGA |
Kyushu University |
Verification and improvement of electric power generation from heat with no temperature difference by the polycrystalline Ba8AuxSi46-x clathrate |
3487 |
A5-P29-050 |
Aug. 29 |
*D |
Yuki OSAKABE |
Kyushu University |
Verification of a Novel Heat-electric Power Conversion Mechanism without Temperature Difference with Thermal Probe Method |
3107 |
A5-P29-051 |
Aug. 29 |
*M |
Risa MAEJIMA |
Tokyo University of Science, Yamaguchi |
Effects of Au Substitution on Thermoelectric Properties of Type-I Clathrate Si-Ge Mixed Crystal System |
3999 |
A5-P29-052 |
Aug. 29 |
*D |
Shun WAN |
CAS Key Laboratory of Materials for Energy Conversion, Shanghai Institute of Ceramics,Chinese Academy of Sciences, Shanghai, 200050, China,State Key Laboratory of High Performance Ceramics and Superfine Microstructure, Shanghai Institute of Ceramics,Chinese Academy of Sciences, Shanghai, 200050, China,University of Chinese Academy of Sciences , Beijing, 100049 , China |
Compound defects and thermoelectric properties for Se in CoSb3 |
3655 |
A5-P29-053 |
Aug. 29 |
*D |
Sora-at TANUSILP |
Graduate School of Engineering, Osaka University |
Structure control of Si and metal silicides nanocomposites synthesized by a melt-spinning method |
3605 |
A5-P29-054 |
Aug. 29 |
|
Keiko KIKUCHI |
Graduate School of Engineering, Tohoku University |
Synthesis of n-type Mg2Si-coated carbon nanotubes |
2952 |
A5-P29-055 |
Aug. 29 |
|
Masataka KUBOUCHI |
Graduate School of Tohoku University of Engineering,National Institute of Advanced Industrial Science and Technology |
Analysis of point defects in Mg-Si-Sn ternary thermoelectric compounds |
3330 |
A5-P29-056 |
Aug. 29 |
*G |
Cheng-Lun HSIN |
Department of Electrical Engineering, National Central University |
Anisotropy of Seebeck Coefficient in Si/Ge Composite Quantum Dots |
3097 |
A5-P29-057 |
Aug. 29 |
|
Takashi AIZAWA |
MANA, National Institute for Materials Science |
CVD Fabrication of Yb Boride Thin Films |
3792 |
A5-P29-058 |
Aug. 29 |
|
Masatoshi TAKEDA |
Department of Mechanical Engineering, Nagaoka University of Technology |
Influence of Synthesis Condition on Thermoelectric Properties of Hexaborides |
2226 |
A5-P29-059 |
Aug. 29 |
*M |
Jemy Fernando LIMBONG |
National Institute for Material Science,University of Tsukuba |
Synthesis and Thermoelectric Properties of HoB50 |
2860 |
A5-P29-060 |
Aug. 29 |
*M |
Yuri NAKAMURA |
Tokyo City University |
Phase formation and thermoelectric properties of AlMgB14 |
2872 |
A5-P29-061 |
Aug. 29 |
|
Yuri NAKAMURA |
Tokyo City University |
C Substitution effects on the thermoelectric properties of AlMgB14 |
3698 |
A5-P29-062 |
Aug. 29 |
*G |
Jeong Seop YOON |
Korea Institute of Ceramic Engineering and Technology |
Enhanced Thermoelectric Properties of BixSb2-xTe3 Incorporating Cu-Te nanoinclusions |