| 1 - 8 |
Proposal for an optimum water management method using two-pole simultaneous measurement
Yamauchi M, Sugiura K, Yamauchi I, Taniguchi T, Itoh Y |
| 9 - 16 |
Optimization of bio-ethanol autothermal reforming and carbon monoxide removal processes
Markova D, Bazbauers G, Valters K, Arias RA, Weuffen C, Rochlitz L |
| 17 - 23 |
Effect of Pd loading in Pd-Pt bimetallic catalysts doped into hollow core mesoporous shell carbon on performance of proton exchange membrane fuel cells
Ficicilar B, Bayrakceken A, Eroglu I |
| 24 - 31 |
Numerical simulation of liquid water and gas flow in a channel and a simplified gas diffusion layer model of polymer electrolyte membrane fuel cells using the lattice Boltzmann method
Tabe Y, Lee YJ, Chikahisa T, Kozakai M |
| 32 - 38 |
Analysis of polymer electrolyte fuel cell performance by electrode polarization model
Mugikura Y, Asano K |
| 39 - 48 |
Mixed-reactant, micro-tubular solid oxide fuel cells: An experimental study
Akhtar N, Decent SP, Loghin D, Kendall K |
| 49 - 54 |
Investigation and optimization of interface reactivity between Ce0.9Gd0.1O1.95 and Zr0.89Sc0.1Ce0.01O2-delta for high performance intermediate temperature-solid oxide fuel cells
Wang ZW, Hashimoto SI, Mori M |
| 55 - 64 |
RedOx study of anode-supported solid oxide fuel cell
Faes A, Nakajo A, Hessler-Wyser A, Dubois D, Brisse A, Modena S, Van Herle J |
| 65 - 71 |
Internal reforming characteristics of cermet supported solid oxide fuel cell using yttria stabilized zirconia fed with partially reformed methane
Momma A, Takano K, Tanaka Y, Negishi A, Kato K, Nozaki K, Kato T, Ichigi T, Matsuda K, Ryu T |
| 72 - 79 |
Examining of the segmented electrode use from the viewpoint of the electrolyte volatilizing in molten carbonate fuel cell
Sugiura K, Yamauchi M, Soga M, Tanimoto K |
| 80 - 85 |
Effect of Al and Ce doping on the deformation upon sintering in sequential tape cast layers for solid oxide fuel cells
Cologna M, Contino AR, Montinaro D, Sglavo VM |
| 86 - 92 |
Comparative study on the performance of pyrolyzed and plasma-treated iron(II) phthalocyanine-based catalysts for oxygen reduction in pH neutral electrolyte solutions
Harnisch F, Savastenko NA, Zhao F, Steffen H, Brusser V, Schroder U |
| 93 - 98 |
Effect of oxygen vacancies on electrical properties of Ce0.8Sm0.1Nd0.1O2-delta electrolyte: An in situ Raman spectroscopic study
Li SP, Lu JQ, Fang P, Luo MF |
| 99 - 106 |
Kinetic study of the hydrogen oxidation reaction on sub-stoichiometric titanium oxide-supported platinum electrocatalyst in acid solution
Babic B, Gulicovski J, Gajic-Krstajic L, Elezovic N, Radmilovic VR, Krstajic NV, Vracar LM |
| 107 - 115 |
Experimental investigation of parameters influencing the freeze start ability of a fuel cell system
Schiesswohl E, von Unwerth T, Seyfried F, Bruggemann D |
| 116 - 121 |
The synthesis and characterization of the Sm0.5Sr0.5Co1-xCuxO3-delta cathode by the glycine-nitrate process
Hung IM, Fung KZ, Lin CT, Hon MH |
| 122 - 129 |
The use of a novel water porosimeter to predict the water handling behaviour of gas diffusion media used in polymer electrolyte fuel cells
Harkness IR, Hussain N, Smith L, Sharman JDB |
| 130 - 135 |
Evaluation of the redox stability of segmented-in-series solid oxide fuel cell stacks
Fujita K, Somekawa T, Horiuchi K, Matsuzaki Y |
| 136 - 145 |
Metallic interconnects for solid oxide fuel cell: Effect of water vapour on oxidation resistance of differently coated alloys
Fontana S, Chevalier S, Caboche G |
| 146 - 149 |
Synthesis and characterization of ceria based nanometric powders
Matovic B, Dohcevic-Mitrovic Z, Radovic M, Brankovic Z, Brankovic G, Boskovic S, Popovic ZV |
| 150 - 154 |
Fabrication of flexible micro-sensors and flow field of stainless steel-based micro-reformer by micro-electro-mechanical-systems process
Lee CY, Lee SJ, Shen CC, Yan WM, Weng FB, Jung GB, Lin CH |
| 155 - 159 |
Phase stability and conductivity of Ba1-ySryCe1-xYxO3-delta solid oxide fuel cell electrolyte
Hung IM, Peng HW, Zheng SL, Lin CP, Wu JS |
| 160 - 164 |
Mitigation of carbon deposits formation in intermediate temperature solid oxide fuel cells fed with dry methane by anode doping with barium
La Rosa D, Sin A, Lo Faro M, Monforte G, Antonucci V, Arico AS |
| 165 - 169 |
Hydrogen production and storage-Investigation of Hf-based intermetallics
Stojic DL, Kumric SV, Grozdic TD, Koteski VJ, Cekic BD |
| 170 - 174 |
Durability and stability test of proton exchange membrane fuel cells prepared from polybenzimidazole/poly(tetrafluoro ethylene) composite membrane
Lin HL, Hsieh YS, Chiu CW, Yu TL, Chen LC |
| 175 - 179 |
Electronic conductivity of modified La0.95Ni0.6Fe0.4O3-delta perovskites
Konysheva E, Irvine JTS |
| 180 - 184 |
Anomalous oxide scale formation under exposure of sodium containing gases for solid oxide fuel cell alloy interconnects
Horita T, Kishimoto H, Yamaji K, Brito ME, Xiong YP, Yokokawa H |
| 185 - 188 |
NiO/YSZ nanocomposite particles synthesized via co-precipitation method for electrochemically active Ni/YSZ anode
Sato K, Okamoto G, Naito M, Abe H |
| 189 - 193 |
Structural and conductivity study of the proton conductor BaCe(0.9-x)ZrxY0.1O(3-delta) at intermediate temperatures
Ricote S, Bonanos N, de Lucas MCM, Caboche G |
| 194 - 198 |
Effects of impurities on the degradation and long-term stability for solid oxide fuel cells
Horita T, Kishimoto H, Yamaji K, Brito ME, Xiong YP, Yokokawa H, Hori Y, Miyachi I |
| 199 - 202 |
Mechanical performance of reactive-air-brazed (RAB) ceramic/metal joints for solid oxide fuel cells at ambient temperature
Kuhn B, Wetzel FJ, Malzbender J, Steinbrech RW, Singheiser L |
| 203 - 215 |
Simulation of thermal stresses in anode-supported solid oxide fuel cell stacks. Part I: Probability of failure of the cells
Nakajo A, Wuillemin Z, Van Herle J, Favrat D |
| 216 - 226 |
Simulation of thermal stresses in anode-supported solid oxide fuel cell stacks. Part II: Loss of gas-tightness, electrical contact and thermal buckling
Nakajo A, Wuillemin Z, Van Herle J, Favrat D |
| 227 - 232 |
The multiphysics analysis of the metallic bipolar plate by the electrochemical micro-machining fabrication process
Lee YM, Lee SJ, Lee CY, Chang DY |
| 233 - 240 |
Thermodynamic model for an alkaline fuel cell
Verhaert I, De Paepe M, Mulder G |
| 241 - 248 |
The effect of temperature gradients on thermal cycling and isothermal ageing of micro-tubular solid oxide fuel cells
Dikwal CM, Bujalski W, Kendall K |
| 249 - 257 |
Water management in a single cell proton exchange membrane fuel cells with a serpentine flow field
Hassan NSM, Daud WRW, Sopian K, Sahari J |
| 258 - 268 |
Operational optimization and real-time control of fuel-cell systems
Hasikos J, Sarimveis H, Zervas PL, Markatos NC |
| 269 - 275 |
Modelling compression pressure distribution in fuel cell stacks
Mikkola M, Tingelof T, Ihonen JK |
| 276 - 284 |
Design, building and testing of a stand alone fuel cell hybrid system
Segura F, Duran E, Andujar JM |
| 285 - 291 |
Hydrogen release properties of lithium alanate for application to fuel cell propulsion systems
Corbo P, Migliardini F, Veneri O |
| 292 - 297 |
Performance analysis of new cathode materials for molten carbonate fuel cells
Paoletti C, Carewska M, Lo Presti R, Mc Phail S, Simonetti E, Zaza F |
| 298 - 307 |
A quasi-Delphi study on technological barriers to the uptake of hydrogen as a fuel for transport applications-Production, storage and fuel cell drivetrain considerations
Hart D, Anghel AT, Huijsmans J, Vuille F |
| 308 - 314 |
Spatially resolved current density measurements and real-time modelling as a tool for the determination of local operating conditions in polymer electrolyte fuel cells
Knori T, Schulze M |
| 315 - 321 |
Optimization strategy for element sizing in hybrid power systems
del Real AJ, Arce A, Bordons C |
| 322 - 330 |
Testing and improving the redox stability of Ni-based solid oxide fuel cells
Pihlatie M, Ramos T, Kaiser A |
| 331 - 337 |
Direct methane solid oxide fuel cell working by gradual internal steam reforming: Analysis of operation
Klein JM, Henault M, Roux C, Bultel Y, Georges S |
| 338 - 341 |
New concept for soot removal from a syngas mixture
Raimondi A, Fino D, Saracco G |
| 342 - 348 |
Demonstration and development of a polymer electrolyte fuel cell system for residential use
Ferraro M, Sergi F, Brunaccini G, Dispenza G, Andaloro L, Antonucci V |
| 349 - 358 |
Electrolysis of carbon dioxide in Solid Oxide Electrolysis Cells
Ebbesen SD, Mogensen M |
| 359 - 366 |
Catalytically upgraded landfill gas as a cost-effective alternative for fuel cells
Urban W, Lohmann H, Gomez JIS |
| 367 - 370 |
Palladium-polyelectrolyte hybrid nanoparticles for hydrogen sensor in fuel cells
Ohara S, Hatakeyama Y, Umetsu M, Sato K, Naka T, Adschiri T |
| 371 - 375 |
New electrochemical cells with membrane-electrode-assembly generating protonic heterojunctions "inorganic proton conductor-hydrogenated metal"
Baikov YM |
| 376 - 385 |
Energy management of fuel cell/battery/supercapacitor hybrid power source for vehicle applications
Thounthong P, Rael S, Davat B |
