easp 2.34; proghtml 2.34 (C)1999-2014 kawase
| Time | Paper ID | Title / Authors | Keywords | Topic code | Ack. number |
|---|---|---|---|---|---|
| Symposium <Frontiers of Fuel Cells, Solar Cells, Batteries and Other Device Technologies for Future Energy Systems -Materials, Processing and Systems Approach-> | |||||
| (9:40–11:00) (Chair: Nishimura A.) | |||||
| V303 | Long term operation of a direct methanol fuel cell stack using neat methanol | direct methanol fuel cell stack power degradation air humidity | S-9 | 210 | |
| V304 | Development of the stable and active Pd catalyst supported by particle-embedded carbon nanofiber for direct formic acid fuel cell | direct formic acid fuel cell anode catalyst particle embedded carbon nanofiber | S-9 | 714 | |
| V305 | Direct formic acid fuel cell using Pd nanoparticles catalyst supported on TiO2 embedded carbon nanofiber | Direct formic acid fuell cell Carbon nanofiber Electrocatalyst | S-9 | 196 | |
| V306 | Extremely low-platinum alloy nanoparticle catalyst for Solid-state alkaline fuel cell (SAFC) | Alkaline Fuel Cell Extremely Low Platinum Catalyst Oxygen Reduction Reaction | S-9 | 364 | |
| (11:00–12:00) (Chair: Koyama M.) | |||||
| V307 | [Invited Talk] Low Platinum Cathode for Intermediate Temperature Fuel Cell without External Humidification | Polymer Electrolyte Fuel Cell Low Platinum Cathode No Humidification | S-9 | 60 | |
| (13:00–14:00) (Chair: Tsujiguchi T.) | |||||
| V313 | Development of new nanofiber material for cathode electrode in PEFCs | PEFC Nanofiber Electrocatalyst | S-9 | 521 | |
| V314 | Clarification on Coupling Transport Phenomena in Single Cell of PEFC with Separator Temperature Data Obtained by Thermograph | PEFC Coupling Transport Phenomena Thermograph | S-9 | 105 | |
| V315 | Kinetic analysis on a direct ethanol fuel cell by using composite fiber catalysts | Direct ethanol fuel cell Kinetic analysis Composite fiber catalyst | S-9 | 360 | |
| (14:00–15:20) (Chair: Inoue G.) | |||||
| V316 | Evaluation of microstructure and proton conductivity in titanium phosphate glass-ceramics (Graduate School of Frontier Sciences) Kadota Minoru, | glass-ceramics proton conducting fuel cell sol-gel method | S-9 | 160 | |
| V317 | Structure and Properties of Polymer Electrolyte Membrane with Heterocyclic Ring Systems for PEFCs | Proton Exchange Membrane Multiblock Copolymer Heterocyclic Ring Systems | S-9 | 454 | |
| V318 | Observation of local ion conduction in inorganic ion conductors (Graduate School of Frontier Sciences, U. Tokyo) Iwanaga Aki, | proton conductor scanning probe microscope grain boundary | S-9 | 832 | |
| V319 | Development of New Anion Exchange Membranes using Polymer of Intrinsic Microporosity | Solid state alkaline fuel cell (SAFC) Anion exchange membrane (AEM) Polymer of Intrinsic Microporosity (PIM) | S-9 | 559 | |
| (15:20–16:20) (Chair: Ohashi H.) | |||||
| V320 | Effect of the electrode structure of the DFAFC on the concentration overvoltage profiles. | direct formic acid fuel cell electrode structure overvoltage | S-9 | 716 | |
| V321 | Improvement in the durability of Pt commercial cathode catalysts available by coverage with silica layers | Pt catalyst fuel cell silica coating | S-9 | 328 | |
| V322 | Influence of relative humidity on oxygen reduction reaction kinetics in cathode layer in PEFC | PEFC oxygen reduction reaction kinetics relative humidity | S-9 | 814 | |
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