New trend of a development of fuel cell materials, devices and its systems |
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Entry No | Presentation | Date | Award | Presenter Name | Affiliation | Paper Title | |||
Dec. 19 13:00 - 18:00 横浜情報文化センター / Yokohama Media & Communications Center コアタイム No.1-20 14:00-16:00 No.21-41 16:00-18:00 |
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2599 | B3-P19-001 | Dec. 19 | *M | Juri MAEKAWA | Graduate school of Chem. Sci. and Tech., Tokyo Univ. of Sci | Characterization of oxygen reduction reaction of size and chemical composition controlled metal clusters. | |||
2050 | B3-P19-002 | Dec. 19 | Kunichi MIYAZAWA | Tokyo University of Science | Transmission Electron Microscopy Characterization of Various Nanocarbons Used as Platinum Catalyst Supports for Polymer Electrolyte Fuel Cells | ||||
2443 | B3-P19-003 | Dec. 19 | *G | Shipra CHAUHAN | National Institute for Materials Science | Design of ultra-low amount Pt loaded ceria nanowire/C with high ORR activity by proton beam irradiation at solid-liquid interface | |||
2444 | B3-P19-004 | Dec. 19 | *G | Shipra CHAUHAN | National Institute for Materials Science (NIMS) | Preparation of Yttria Stabilized Zirconia Fiber Network by sol-gel method for IT-SOFC | |||
2632 | B3-P19-005 | Dec. 19 | Toshiyuki MORI | National Institute for Materials Science | Design of active interface between extremely small amount of Pt and cermet anode on the basis of microanalysis for development of IT-SOFC | ||||
2289 | B3-P19-006 | Dec. 19 | *G | Andrii REDNYK | NIMS | Design of high quality anode layer in solid oxide fuel cells by deposition of PtOx thin film catalysts | |||
2378 | B3-P19-007 | Dec. 19 | Shunya YAMAMOTO | National Institutes for Quantum and Radiological Science and Technology | Surface Morphology of Cerium Oxide Thin Films Prepared by Magnetron Sputtering | ||||
2719 | B3-P19-008 | Dec. 19 | *D | Kenichi TAKAHASHI | National Institute for Materials Science/Hokkaido University | Binder modification for platinum loaded ceria nanowire/carbon as cathode electrode active material in low temperature working MEA of PEFC | |||
2774 | B3-P19-009 | Dec. 19 | *M | Kota TAKEUCHI | Graduate School of Science and Technology: Education Program of Material and Bioscience, University of Gunma | Degradation Mechanism of Graft-type Anion-conducting Electrolyte Membranes in Alkaline Medium | |||
2745 | B3-P19-010 | Dec. 19 | *M | Keisuke KUMAZAWA | Toyohashi University of Technology | Improved PBI-based Composite Membrane in Fuel Cell at Medium Temperature under Anhydrous Condition | |||
2637 | B3-P19-011 | Dec. 19 | *B | Riku KANAUCHI | National Institute of Technology, Tsuruoka College | Development of ionic-liquid based polymer electrolytes using ionic liquid-type polymer grafted silica particles with various silica core diameters | |||
2338 | B3-P19-013 | Dec. 19 | Ryo SHOMURA | Department of Creative Engineering, National Institute of Technology, Tsuruoka College/Global Research Center for Environment and Energy based on Nanomaterials Science, National Institute for Materials Science | Proton Conductivity of The Solid-State Electrolyte Composed of PSiPs and Protonic Ionic Liquid | ||||
2749 | B3-P19-014 | Dec. 19 | Takashi HAMADA | National Institutes for Quantum and Radiological Science and Technology | Synthesis and Characterization of Aniline-Based Anion-Conducting Polymer Electrolyte Membranes | ||||
2750 | B3-P19-015 | Dec. 19 | Tomitsugu TAGUCHI | Quantum Beam Science Research Directorate, National Institutes for Quantum and Radiological Science and Technology | Synthesis and characterization of silicon carbide nanotubes equipped with platinum nanoparticles by electron beam irradiation technique | ||||
2392 | B3-P19-016 | Dec. 19 | *B | Takanori ENDO | National Institute of Technology, Tsuruoka College | Development of protic ionic-liquid based polymer electrolytes using ionic liquid-type binder copolymer and polymer grafted silica particles | |||
2391 | B3-P19-017 | Dec. 19 | Takashi MORINAGA | National Institute of Technology, Tsuruoka College/Global Research Center for Environment and Energy based on Nanomaterials Science, National Instutute of Material Science | Synthesis of Ionic-Liquid type Anionic Polymer by Living Radical Polymerization | ||||
2236 | B3-P19-018 | Dec. 19 | *G | Shigeharu ITO | National Institute of Technology, Tsuruoka College/National Institute for Materials Science | Effect of adding the mixed conductor promoter at the interface into anode for the intermediate operating SOFC | |||
2759 | B3-P19-019 | Dec. 19 | *G | Miwa SAITO | Kanagawa University | Study on thermal behaviors of perovskite-type Ba(Zn1-xNbx)O3-δ and Ba2(Zn1-xWx)2O6-2δhaving high proton conductivity | |||
2248 | B3-P19-020 | Dec. 19 | *M | Chi-wen CHAO | 200 Chung Pei Road, Chung Li District, Taoyuan City, Taiwan 32023, R.O.C. | The influence of Cs on the stability of perovskite solar cells | |||
2786 | B3-P19-021 | Dec. 19 | *B | Yuto SHIMOYAMA | College of Engineering Sciences, School of Science and Engineering, University of Tsukuba | Catalyst Activity of Pyridinic Nitrogen Contained Carbon for Oxygen Reduction Reaction | |||
2432 | B3-P19-022 | Dec. 19 | *M | Tomomi SATO | Graduate School of Engineering, Tohoku University, Sendai, Japan | Evaluation of Electrical Conduction Properties of Group-III Nitrides Doped with Divalent Cations | |||
2330 | B3-P19-023 | Dec. 19 | *M | Yuta NAKAJO | Graduate School of Chemical Sciences and Technology, Tokyo University of Science | Investigation of interactions between Pt atoms and graphene sheets by first-principles calculations | |||
2799 | B3-P19-024 | Dec. 19 | *M | Ryo KOBAYASHI | Iwate university | Metal Oxide Catalyst as Carbon-Free Positive Electrodes for Secondary Zinc-Air Batteries | |||
2755 | B3-P19-025 | Dec. 19 | *M | Tsubasa SUZUKI | Electrical and Electronic Information Engineering,Toyohashi University of Technology | Fabrication and Characterization of Iron/Air Batteries Using Iron Oxide-Loaded Current Collectors as Negative Electrodes | |||
2780 | B3-P19-026 | Dec. 19 | *B | Keiichiro MAEGAWA | Toyohashi University of Technology | Enhancement of Performance of Polymer-Based Composite Electrolyte Fuel Cell by Three-Phase Interface Design | |||
2451 | B3-P19-027 | Dec. 19 | *M | Yuko TAMURA | Graduate school of Engineering, Yokohama National University | Oxygen reduction activity of Nb added TiO2 model electrodes as non-platinum cathodes for PEFC | |||
2352 | B3-P19-028 | Dec. 19 | *M | Hikaru IGARASHI | Yokohama National University, Green Hydrogen | Synthesis of titanium conductive oxides support for PEFC cathodes by hydrogen reduction | |||
2459 | B3-P19-029 | Dec. 19 | *M | Chumeng WU | Yokohama national university | Evaluation of oxygen reduction activity of titanium oxide-based catalysts with electro-conductive materials as non-platinum cathodes for PEFC | |||
2721 | B3-P19-030 | Dec. 19 | *M | Sho FUJITA | Yokohama National University | The effect on property of LixNi2-xO2/Ni anode with modification method for alkaline water electrolysis | |||
2557 | B3-P19-031 | Dec. 19 | Atsushi MINESHIGE | University of Hyogo | Conducting Properties and Chemical Stability of Lanthanum Silicate Solid Electrolytes | ||||
2468 | B3-P19-032 | Dec. 19 | *M | Shusuke MIZUNUMA | University of Tohoku | Material design of ceramic proton conductor for fuel cell considering efficiency loss due to electric leakage current | |||
2490 | B3-P19-033 | Dec. 19 | *M | Shun HATAKEYAMA | Graduate School of Environmental Studies | Evaluating the effect of CO2 in H2O-CO2 co-electrolysis by using Solid Oxide Electrolysis Cells | |||
2312 | B3-P19-034 | Dec. 19 | *M | Takahiro ONOE | College of Humanities and Sciences, Nihon University | Preparation of Ln2NiO4+δ (Ln: La, Pr, Nd and Their Solid Solution) with Controlled A-site Ionic Radius and Their Structural Phase Transition Behavior | |||
2488 | B3-P19-035 | Dec. 19 | *B | Makoto SUGAI | National Institute of Technology, Tsuruoka College | Electrical property and crystal chemical consideration by Rietveld analysis of (Ca0.96-y□0.02Li0.02Lay)2Fe2O5+δ system | |||
2643 | B3-P19-036 | Dec. 19 | Naoki IGAWA | Japan Atomic Energy Agency | Average and Local Structures of BaSn0.5In0.5O2.75 as Electrolyte for Solid Oxide Fuel Cell Analyzed by Neutron Diffraction | ||||
2744 | B3-P19-037 | Dec. 19 | *M | Hideo FUKUTAKE | Graduate School of Systems and Information Engineering, University of Tsukuba/Research Institute for Energy Conservation (I-ECO), National Institute of Advanced Industrial Science and Technology (AIST) | Improve performance of (La,Sr)CoO3-delta-(Gd,Ce)O2-delta composite cathode for SOFCs | |||
2097 | B3-P19-038 | Dec. 19 | *M | Takayasu UCHI | Graduate School of Environmental studies, Tohoku University | Elucidation of the deterioration in the fuel electrode of the solid oxide electrolysis cell | |||
2347 | B3-P19-039 | Dec. 19 | *M | Dan NONAMI | Graduate School of Environmental Studies, Tohoku University | Modification of oxygen potential at (La,Sr)CoO3-δ electrode surface | |||
2686 | B3-P19-040 | Dec. 19 | *D | Hackho KIM | Department of Applied Chemistry, Faculty of Engineering, Kyushu University | Increase in cycle stability of Ni based anode for solid oxide reversible cells using LSGM electrolyte | |||
2742 | B3-P19-041 | Dec. 19 | *M | Keigo ONITA | Graduate School of Automotive Sciences, Integrated Frontier Sciences, Kyushu University | Preparation of LaGaO3 based electrolyte thin film by dip-coating method for tubular type SOFC |