Time | Paper ID | Title / Autors | Keywords | Topic code | Ack. number |
---|---|---|---|---|---|
Symposium <Fuel Cells, Solar Cells, Batteries and Other Future Energy Device Technologies - Materials, Processing and Systems Approach-> | |||||
(10:00–11:00) ( Kikuchi R., Tukui S.) | |||||
J104 | Controlling the Micro/Nano-structures of Metal Nanoparticles/porous Si for the Enhancement of Solar Cell Efficiencies | Metal nanoparticle Micro/nano structure Si solar cell | S-4 | 972 | |
J105 | Relationship between Crystallinity of Titanium Oxide and the Performance of P3HT/ICBA Organic Solar Cell | Titanium Oxide organic solar cell crystallinity | S-4 | 979 | |
J106 | Effect of Sb2S3 Microstructure on Photoelectric Conversion Efficiency of Sensitized Semiconductor Solar Cells | solar cell Sb2S3 heterojunciton | S-4 | 995 | |
(11:00–12:00) ( Tukui S., Kikuchi R.) | |||||
J107 | [Invited Lecture] Solar cell, Energy Management/Smart Grid, Mega Solar Power Plant | Solar Cell Smart Grid Mega Solar Power Plant | S-4 | 924 | |
(13:00–14:00) ( Tsujiguchi T., Tamaki T.) | |||||
J113 | Clarification on Coupling Phenomena in Single Cell of PEFC with In-plane Temperature Distribution Data Measured by Thermograph | PEFC In-plane Temperature Distribution Coupling Phenomena | S-4 | 214 | |
J114 | The effect of operating conditions on water transport situation in the membrane of polymer electrolyte fuel cell. | PEFC water transport NWTC | S-4 | 136 | |
J115 | Modeling of Heat Transfer in Single Cell of PEFC with Separator Temperature Data Obtained by Thermograph | PEFC Heat Transfer Model Temperature Distribution Analysis | S-4 | 211 | |
(14:00–15:00) ( Tamaki T., Tsujiguchi T.) | |||||
J116 | Relationship between microstructure of carbon electrode and effective electrical conductivity | PEFC Micro porous layer electrical conductivity | S-4 | 994 | |
J117 | Analysis of oxygen reduction reaction in the cathode catalyst layer of PEFC | PEFC oxygen reduction reaction kinetics | S-4 | 907 | |
J118 | Establishment of through-plane measurement of membrane conductivity in polymer electrolyte fuel cell | ion exchange membranes through-plane measurement conductivity | S-4 | 260 | |
(15:00–16:00) ( Kubota J., Fukunaga H.) | |||||
J119 | Development of PEFC cathode catalyst layer with core structure of carbon aggregate | PEFC catalyst layer ionomer | S-4 | 971 | |
J120 | PEFC electrocatalyst using FePt porous nanocapsules | PEFC FePt nanocapsules electrocatalyst | S-4 | 591 | |
J121 | Catalytic activity of carbon black-supported V-Mo oxide catalysts for oxygen reduction reaction | PEFC oxygen reduction reaction non-platinum catalysts | S-4 | 510 | |
(16:00–16:40) ( Fukunaga H., Ootomo J.) | |||||
J122 | The oxygen reduction reaction of well-dispersed TaOx nanoparticles on carbon black for PEFC applications. | PEFCs Oxygen reduction reaction tantalum oxide | S-4 | 515 | |
J123 | Activity of niobium-doped titanium oxide catalysts for oxygen reduction reaction of polymer electrolyte fuel cells | PEFC Oxygen reduction reaction niobium doped titanium oxide71 | S-4 | 938 |