The Venue of poster sessions are either Oasis, Building 8 or 7F A-building.
Symposium : C-8 : Advanced Oxide Materials Bulks, Thin Films, and Nanostructures |
Entry No |
Presentation |
Date |
Award |
Presenter Name |
Affiliation |
Paper Title |
Aug. 28 18:00 - 20:00 Building 8, 1F Oasis |
Aug. 28 18:00 - 20:00 Core time: 18:30-20:00 |
2039 |
C8-P28-001 |
Aug.
28 |
|
Jong Ho KIM |
Materials Processing Division, Research Institute of Industrial Science and Technology |
Phase Transformation of Various Quartz Raw Materials during Heat Treatment |
2933 |
C8-P28-002 |
Aug.
28 |
|
Hiroaki NISHIKAWA |
Faculty of Biology-Oriented Science and Technology, Kinki University |
Control of the Chemical Composition for Hydroxyapatite Thin Film by Pulsed Laser Deposition Technique |
2048 |
C8-P28-003 |
Aug.
28 |
|
Chun-Ying SHEN |
College of Materials Science and Engineering, Nanjing Tech University |
Effect of heat treatment on the microwave dielectric properties of 0.87(Mg 0.7Zn0.3)TiO3-0.13(Ca0.61La0.26)TiO3 ceramics |
2849 |
C8-P28-004 |
Aug.
28 |
|
Nguyen PHUC |
Department of Electrical and Electronics Information Engineering, Toyohashi University of Technology |
Ex-situ Raman Mapping Study of Cordierite Formation Mechanism |
2022 |
C8-P28-005 |
Aug.
28 |
|
Yimg-Chieh LEE |
Department of Materials Engineering National Pingtung University of Technology and Science, Taiwan, R.O.C |
Effect of ZrO2 Doping on Microwave Dielectric Properties and Microstructures of Bi2Mo2O9 Ceramic |
3917 |
C8-P28-006 |
Aug.
28 |
|
Yasushi TATENO |
Graduate School of Engineering, Kanazawa Institute of Technology,Furuuchi Chemical Co. |
Enhancement of the Output of the 32 mm Diameter SrTiO3 Crystal Grown by Flame Fusion |
2776 |
C8-P28-007 |
Aug.
28 |
*M |
Takaki KAMEYA |
Tokyo University of Technology |
Synthesis of Bi-Pb-Sr-Ca-Cu-O Superconducting Crystal Grains by Shock Compression without Annealing Process |
3649 |
C8-P28-008 |
Aug.
28 |
*G |
Hiromi TANAKA |
Department of Electrical and Computer Engineering, Yonago National College of Technology |
New Process for Fabricating Intrinsic Josephson Junction using Hydrogen-Atmosphere Treatment |
2795 |
C8-P28-009 |
Aug.
28 |
*G |
Kohei FUJIWARA |
ISIR, Osaka University |
5d transition metal oxide IrO2 as a material for spin-current detection |
3770 |
C8-P28-010 |
Aug.
28 |
|
Toshiki MORI |
Mie University |
Lattice Matching Calculations for Out-of-plane Orientations of Cubic- LSMO on Hexagonal-(001)ZnO : Coulombic Energy |
3434 |
C8-P28-011 |
Aug.
28 |
*M |
Daichi FUKUTOMI |
Department of Applied Chemistry and Biotechnology,Okayama university |
Preparation and characterization of (001)-oriented Fe2-xTixO3 epitaxial films |
2260 |
C8-P28-012 |
Aug.
28 |
|
Sukadeo KADAM |
New Arts, Commerce and Science College, Parner. Dist. Ahmednagar. Maharashtra. |
Resistivity, Thermoelectric Power and Magnetoelectric Effect in xBa0.8Pb0.2TiO3 + (1-x)Ni0.65CO0.35Fe2O4 Composites |
3142 |
C8-P28-013 |
Aug.
28 |
|
Kanji YASUI |
Nagaoka University of Technology |
Influence of N2O addition on the properties of ZnO films grown using high-temperature H2O generated by a catalytic reaction on Pt nanoparticles |
2427 |
C8-P28-014 |
Aug.
28 |
|
Tomoaki TERASAKO |
Graduate School of Science and Engineering, Ehime University |
Effects of Nitrogen Doping on Structural and Optical Properties of ZnO Films Grown by Atmospheric-pressure CVD |
2429 |
C8-P28-015 |
Aug.
28 |
|
Tomoaki TERASAKO |
Graduate School of Science and Engineering, Ehime University |
Carrier Transport in Undoped ZnO and CdO Films Grown by Atmospheric-pressure CVD |
2150 |
C8-P28-016 |
Aug.
28 |
|
Soon-Ku HONG |
Department of Advanced Materials Engineering, Chungnam National University,Graduate School of Green Energy Technology, Chungnam National University |
ZnO nanorods arrays grown by hydrothermal process for photoelectrochemical water splitting |
3264 |
C8-P28-017 |
Aug.
28 |
|
Wataru YANO |
Graduate school of Engineering, Nagoya Institute of Technology |
Novel Welding Method for Fabrication of ZnO-Nafion Junctions Utilizing Laser Irradiation |
3292 |
C8-P28-018 |
Aug.
28 |
|
Ryuji OKUMURA |
Graduate school of Engineering, Nagoya Institute of Technology |
Exploration of growth direction controllability of ZnO nanorods |
3340 |
C8-P28-019 |
Aug.
28 |
*M |
Yuri TABATA |
Graduate School of Engineering, Nagoya Institute of Technology |
Synthesis of size-controlled ZnO nanoparticles by liquid phase deposition and dispersion method of polymer hybridization |
3526 |
C8-P28-020 |
Aug.
28 |
|
Yuta KONDO |
Nagoya Institute of Technology, Graduate school of Engineering |
Fabrication of Nd-doped ZnO and investigation of effect on Li+codoping |
3525 |
C8-P28-021 |
Aug.
28 |
|
Tomohiro SAKAI |
Nagoya Institute of Technology, Graduate School of Engineering |
Effect of seed-layer annealing on the hydrothermal grown ZnO nanorods |
2908 |
C8-P28-022 |
Aug.
28 |
|
Koji ABE |
Department of Engineering Physics, Electronics and Mechanics, Nagoya Institute of Technology |
Growth of ZnO films on glass substrates by chemical bath deposition |
3685 |
C8-P28-023 |
Aug.
28 |
*G |
Navaneethan MANI |
Research Institute of Electronics, Shizuoka University |
Highly monodispersed growth of ZnO nanostructures and functional properties |
3073 |
C8-P28-025 |
Aug.
28 |
*M |
Yuichiro NODA |
Graduate School of Science and Technology, Kumamoto University |
Formation of CuO thin films on sapphire substrates by mist-CVD |
3004 |
C8-P28-027 |
Aug.
28 |
*M |
Eun-Ho CHU |
School of Materials Science and Engineering, KyungPook National University |
Effects of Oxygen partial pressure and RF-power on the growth of SnO thin films by RF-reactive sputtering |
3003 |
C8-P28-028 |
Aug.
28 |
*M |
Yeon-Hoo JUNG |
School of Materials Science and Engineering, KyungPook National University |
Effects of RF-Power on transfer characteristics of Amorphous Indium-Gallium-Zinc-Oxide Thin Film Transistors |
2132 |
C8-P28-029 |
Aug.
28 |
|
Saravanan SHANMUGAM |
Center for Photonics and Nanotechnology, Sona College of Technology, Salem, Tamilnadu,,Department of Frontier Materials, Nagoya Institute of Technology, Nagoya |
Electrophoresis Deposition of TiO2 Nanopartilce on Plastic Films |
2267 |
C8-P28-030 |
Aug.
28 |
|
Wen-Jen LEE |
Department of Advanced Thin Films Process, National Pingtung University |
The Characteristics of TiO2 Films Grown on FTO-Glass Substrates by Atomic Layer Deposition |
2268 |
C8-P28-031 |
Aug.
28 |
|
Wen-Jen LEE |
Department of Advanced Thin Films Process, National Pingtung University |
TiO2 Nanorod Array based TiO2/Water Solid-Liquid Heterojunction Ultraviolet Photo-detectors |
2341 |
C8-P28-032 |
Aug.
28 |
*D |
Junie Jhon VEQUIZO |
Department of Engineering Physics, Electronics, and Mechanics, Nagoya Institute of Technology |
Fabrication of Electrodeposited Cu2O/γ-FeOOH Heterojunction Solar Cells |
2184 |
C8-P28-033 |
Aug.
28 |
*G |
Ashraf ABDEL HALEEM |
Department of Engineering Physics, Electronics and Mechanics, Nagoya Institute of Technology, Gokiso, Showa, Nagoya 466-8555, Japan,Department of Engineering Physics, Faculty of Engineering, Fayoum University, Egypt |
Electrochemical Deposition of Aluminum Oxide Thin Films |
2025 |
C8-P28-034 |
Aug.
28 |
|
Masaya ICHIMURA |
Dept. Engineering Physics, Electronics, and Mechanics, Nagoya Institute of Technology |
Heterojunctions Based on Photochemically Deposited CuxZnyS and Electrochemically Deposited ZnO |
2343 |
C8-P28-035 |
Aug.
28 |
|
Yuji HORIE |
Department of Electrical and Electronics Engineering, Kagoshima University |
Effect of Structure of Nb:TiO2 Dense Layer in Dye Sensitized Solar Cells |
3372 |
C8-P28-036 |
Aug.
28 |
|
Hyojin KIM |
Graduate School of Advanced Electronic Circuit Substrate Engineering, Chungnam Nationoal University, Korea,Department of Materials Science and Engineering, Chungnam Nationoal University, Korea |
Rectifying and NO Gas Sensing Properties of CuO Thin Film/ZnO Nanorods Heterostructure |
3754 |
C8-P28-037 |
Aug.
28 |
*D |
Donghwan LIM |
Hanyang University |
The Effects of ALD La2O3 Capping Layer using Different Precursors on Electrical Properties of HKMG Devices |