| 1 - 5 |
A fundamental study on electrochemical hydrogen generation from borohydrides
Senoh H, Siroma Z, Fujiwara N, Yasuda K |
| 6 - 12 |
Platinum nanoparticles embledded in layer-by-layer films from SnO2/polyallylamine for ethanol electrooxidation
Barretto CB, Parreira RLT, Goncalves RR, de Azevedo DC, Huguenin F |
| 13 - 18 |
Novel nano-network cathodes for solid oxide fuel cells
Zhao F, Wang ZY, Liu MF, Zhang L, Xia CR, Chen FL |
| 19 - 25 |
Properties and fuel cell performance of proton exchange membranes prepared from disulfonated poly(sulfide sulfone)
Dai H, Zhang HM, Luo QT, Zhang Y, Bi C |
| 26 - 31 |
Preparation and electrical properties of yttrium-doped strontium titanate with B-site deficiency
Gao F, Zhao HL, Li X, Cheng YF, Zhou X, Cui F |
| 32 - 39 |
Sulfonated poly(ether ether ketone)/clay-SO3H hybrid proton exchange membranes for direct methanol fuel cells
Fu TZ, Cui ZM, Zhong SL, Shi YH, Zhao CJ, Zhang G, Shao K, Na H, Xing W |
| 40 - 48 |
Nanoscale bismuth oxide im, regnated (La,Sr)MnO3 cathodes for intermediate-temperature solid oxide fuel cells
Jiang ZY, Zhang L, Feng K, Xia CR |
| 49 - 54 |
Nafion/sulfated beta-cyclodextrin composite membranes for direct methanol fuel cells
Jeon JD, Kwak SY |
| 55 - 62 |
Analyzing the effects of immobile liquid saturation and spatial wettability variation on liquid water transport in diffusion media of polymer electrolyte fuel cells (PEFCs)
Ju H |
| 63 - 69 |
Comparison of homogeneously and heterogeneously sulfonated polyetheretherketone membranes in preparation, properties and cell performance
Do KNT, Kim D |
| 70 - 75 |
Harvesting energy from the marine sediment-water interface III. Kinetic activity of quinone- and antimony-based anode materials
Lowy DA, Tender LM |
| 76 - 84 |
Investigation of Ba1-xSrxCo0.8Fe0.2O3-delta as cathodes for low-temperature solid oxide fuel cells both in the absence and presence of CO2
Yan AY, Yang M, Hou ZF, Dong YL, Cheng MJ |
| 85 - 94 |
Proton conducting membranes prepared by incorporation of organophosphorus acids into alcohol barrier polymers for direct methanol fuel cells
Jiang ZY, Zheng XH, Wu H, Pan FS |
| 95 - 103 |
Modelling and analysis of a direct ascorbic acid fuel cell
Zeng YZ, Fujiwara N, Yamazaki S, Tanimoto K, Wu P |
| 104 - 111 |
Studies on the carbon reactions in the anode of deposited carbon fuel cells
Zhao XY, Yao Q, Li SQ, Cai NS |
| 112 - 117 |
Influence of cathode flow pulsation on performance of proton-exchange membrane fuel cell
Kim YH, Han HS, Kim SY, Rhee GH |
| 118 - 128 |
Transient response of a unit proton-exchange membrane fuel cell under various operating conditions
Cho J, Kim HS, Min K |
| 129 - 135 |
Investigation of SM0.5Sr0.5CoO3-delta/Co3O4 composite cathode for intermediate-temperature solid oxide fuel cells
Zhang HZ, Liu HY, Cong Y, Yang WS |
| 136 - 142 |
Improvement of the proton exchange membrane fuel cell (PEMFC) performance at low-humidity conditions by adding hygroscopic gamma-Al2O3 particles into the catalyst layer
Chao WK, Lee CM, Tsai DC, Chou CC, Hsueh KL, Shieu FS |
| 143 - 152 |
Optimum geometrical design for improved fuel utilization in membraneless micro fuel cell
Ahmed DH, Park HB, Sung HJ |
| 153 - 158 |
Improvement of output performance of solid oxide fuel cell by optimizing Ni/samaria-doped ceria anode functional layer
Ai N, Lu Z, Tang JK, Chen KF, Huang XQ, Su WH |
| 159 - 165 |
Preparation of platinum nanoparticles on carbon black with mixed binary surfactants: Characterization and evaluation as anode catalyst for low-temperature fuel cell
Lim DH, Lee WD, Choi DH, Park DR, Lee HI |
| 166 - 170 |
Stabilization of the platinum-ruthenium electrocatalyst against the dissolution of ruthenium with the incorporation of gold
Liang ZX, Zhao TS, Xu JB |
| 171 - 178 |
35-We polymer electrolyte membrane fuel cell system for notebook computer using a compact fuel processor
Son IH, Shin WC, Lee YK, Lee SC, Ahn JG, Han SI, Kweon HJ, Kim JY, Kim MC, Park JY |
| 179 - 182 |
Nanostructured palladium-La0.75Sr0.25Cr0.5Mn0.5O3/Y2O3-ZrO2 composite anodes for direct methane and ethanol solid oxide fuel cells
Jiang SP, Ye YM, He TM, Ho SB |
| 183 - 187 |
Quaternized-chitosan membranes for possible applications in alkaline fuel cells
Wan Y, Peppley B, Creber KAM, Bui VT, Halliop E |
| 188 - 192 |
Direct liquid methanol-fueled solid oxide fuel cell
Liu MF, Peng RR, Dong DH, Gao JF, Liu XQ, Meng GY |
| 193 - 196 |
Electrochemical performance of PrBaCo2O5+delta layered perovskite as an intermediate-temperature solid oxide fuel cell cathode
Zhu CJ, Liu XM, Yi CS, Yan D, Su WH |
| 197 - 201 |
Effects of operation conditions on direct borohydride fuel cell performance
Celik C, San FGB, Sarac HI |
| 202 - 206 |
Experimental factors that influence carbon monoxide tolerance of high-temperature proton-exchange membrane fuel cells
Kwon K, Yoo DY, Park JO |
| 207 - 211 |
Performance of strontium- and magnesium-doped lanthanum gallate electrolyte with lanthanum-doped ceria as a buffer layer for IT-SOFCs
Lee D, Han JH, Kim EG, Song RH, Shin DR |
| 212 - 216 |
Electrochemical performance of Pr0.7Sr0.3Co0.9Cu0.1O3-delta-Ce0.8Sm0.2O1.9 composite cathodes in intermediate-temperature solid oxide fuel cells
Zhu CJ, Liu XM, Xu D, Wang DJ, Yan D, Pei L, Lu TQ, Su WH |
| 217 - 221 |
Quantitative analysis of oxygen-containing species adsorbed on the Pt surface of a polymer electrolyte fuel cell membrane electrode assembly electrode using stripping voltammetry
Limjeerajarus N, Yanagimoto T, Yamamoto T, Ito T, Yamaguchi T |
| 222 - 225 |
Electro-oxidation of 2-propanol and acetone over platinum, platinum-ruthenium, and ruthenium nanoparticles in alkaline electrolytes
Markiewicz MEP, Bergens SH |
| 226 - 232 |
Optimization of the polypyrrole-coating parameters for proton exchange membrane fuel cell bipolar plates using the Taguchi method
Wang Y, Northwood DO |
| 233 - 240 |
An improved electrochemical model for the NH3 fed proton conducting solid oxide fuel cells at intermediate temperatures
Ni M, Leung DYC, Leung MKH |
| 241 - 247 |
Fractal model for prediction of effective thermal conductivity of gas diffusion layer in proton exchange membrane fuel cell
Shi Y, Xiao JS, Quan SH, Pan M, Yuan RZ |
| 248 - 260 |
Experimental analysis of internal gas flow configurations for a polymer electrolyte membrane fuel cell stack
Friedl A, Fraser SD, Baumgartner W, Hacker V |
| 261 - 271 |
Modeling of two-phase transport in the diffusion media of polymer electrolyte fuel cells
Wang Y |
| 272 - 279 |
Polymer electrolyte membrane fuel cell contamination: Testing and diagnosis of toluene-induced cathode degradation
Li H, Zhang JL, Fatih K, Wang ZW, Tang YH, Shi Z, Wu SH, Song DT, Zhang JJ, Jia NY, Wessel S, Abouatallah R, Joos N |
| 280 - 286 |
The influence of the electrochemical stressing (potential step and potential-static holding) on the degradation of polymer electrolyte membrane fuel cell electrocatalysts
Shao YY, Kou R, Wang J, Viswanathan VV, Kwak JH, Liu J, Wang Y, Lin YH |
| 287 - 301 |
A model for hydrogen sulfide poisoning in proton exchange membrane fuel cells
Shah AA, Walsh FC |
| 302 - 310 |
The effect of air stoichiometry change on the dynamic behavior of a proton exchange membrane fuel cell
Qu SG, Li XJ, Hou M, Shao ZG, Yi BL |
| 311 - 317 |
Energy management strategy based on fuzzy logic for a fuel cell hybrid bus
Gao DW, Jin ZH, Lu QC |
| 318 - 330 |
DMFC performance and methanol cross-over: Experimental analysis and model validation
Casalegno A, Marchesi R |
| 331 - 337 |
Co/LaCrO3 composite coatings for AISI 430 stainless steel solid oxide fuel cell interconnects
Shaigan N, Ivey DG, Chen WX |
| 338 - 344 |
Nonlinear model predictive control of SOFC based on a Hammerstein model
Huo HB, Zhu XJ, Hu WQ, Tu HY, Li J, Yang J |
| 345 - 355 |
Development of a novel computational tool for optimizing the operation of fuel cells systems: Application for phosphoric acid fuel cells
Zervas PL, Tatsis A, Sarimveis H, Markatos NCG |
| 356 - 362 |
Engineering of the bipolar stack of a direct NaBH4 fuel cell
Luo N, Miley GH, Mather J, Burton R, Hawkins G, Byrd E, Holcomb F, Rusek J |
| 363 - 373 |
Numerical characterization of a microscale solid-oxide fuel cell
Sun CL, Ou HC |
| 374 - 380 |
Characterizing the fracture resistance of proton exchange membranes
Li YQ, Quincy JK, Case SW, Ellis MW, Dillard DA, Lai YH, Budinski MK, Gittleman CS |
| 381 - 391 |
Effect of inlet flow maldistribution in the stacking direction on the performance of a solid oxide fuel cell stack
Yuan P |
| 392 - 400 |
Carbon dioxide vent for direct methanol fuel cells
Prakash S, Mustain W, Kohl PA |
| 401 - 410 |
Reactivity between La(Sr)FeO3 cathode, doped CeO2 interlayer and yttria-stabilized zirconia electrolyte for solid oxide fuel cell applications
Martinez-Amesti A, Larranaga A, Rodriguez-Martinez LM, Aguayo AT, Pizarro JL, No ML, Laresgoiti A, Arriortua MI |
| 411 - 418 |
Aligned carbon nanotube-Pt composite fuel cell catalyst by template electrodeposition
Nagle LC, Rohan JF |
| 419 - 422 |
Cyclic oxidation of Mn-Co spinel coated SUS 430 alloy in the cathodic atmosphere of solid oxide fuel cells
Hua B, Pu JA, Gong W, Zhang JF, Lu FS, Jian L |
| 423 - 427 |
Graphitic mesoporous carbon as a durable fuel cell catalyst support
Shanahan PV, Xu LB, Liang CD, Waje M, Dai S, Yan YS |
| 428 - 432 |
Effect of anisotropic electrical resistivity of gas diffusion layers (GDLs) on current density and temperature distribution in a Polymer Electrolyte Membrane (PEM) fuel cell
Bapat CJ, Thynell ST |
| 433 - 438 |
Planar air-breathing micro-direct methanol fuel cell stacks based on micro-electronic-mechanical-system technology
Cao JY, Zou ZQ, Huang QH, Yuan T, Li ZL, Xia BJ, Yang H |
| 439 - 444 |
Photoanodic and cathodic role of anodized tubular titania in light-sensitized enzymatic hydrogen production
Bae S, Shim E, Yoon J, Joo H |
| 445 - 450 |
A self-regulating hydrogen generator for micro fuel cells
Moghaddam S, Pengwang E, Masel RI, Shannon MA |
| 451 - 458 |
Thermodynamic equilibrium composition analysis of methanol autothermal reforming for proton exchanger membrane fuel cell based on FLUENT Software
Wang S, Wang SD |
| 459 - 465 |
Using ammonia as a sustainable fuel
Zamfirescu C, Dincer I |
| 466 - 472 |
Effects of TiO2 coating on high-temperature cycle performance of LiFePO4-based lithium-ion batteries
Chang HH, Chang CC, Su CY, Wu HC, Yang MH, Wu NL |
| 473 - 479 |
Surface modification of LiNi1/2Mn3/2O4 thin-films by zirconium alkoxide/PMMA composites and their effects on electrochemical properties
Doi T, Kageura J, Okada S, Yamaki J |
| 480 - 485 |
Composite effect in superionically conducting lithium aluminium germanium phosphate based glass-ceramic
Thokchom JS, Kumar B |
| 486 - 491 |
One-pot synthesis of CoO/C hybrid microspheres as anode materials for lithium-ion batteries
Qiao H, Xiao LF, Zheng Z, Liu HW, Jia FL, Zhang LZ |
| 492 - 500 |
Application of biphenyl additive in electrolyte for liquid state Al-plastic film lithium-ion batteries
Zhang Y, Zhang AQ, Gui YH, Wang LZ, Wu XB, Zhang CF, Zhang P |
| 501 - 511 |
Chromium doping as a new approach to improve the cycling performance at high temperature of 5 VLiNi0.5Mn1.5O4-based positive electrode
Aklalouch M, Amarilla JM, Rojas RM, Saadoune I, Rojo JM |
| 512 - 518 |
Fabrication and characterization of Fe3O4-based Cu nanostructured electrode for Li-ion battery
Duan HN, Gnanaraj J, Chen XP, Li BQ, Liang JY |
| 519 - 525 |
Electrochemical performances of nanostructured Ni3P-Ni films electrodeposited on nickel foam substrate
Xiang JY, Tu JP, Wang XL, Huang XH, Yuan YF, Xia XH, Zeng ZY |
| 526 - 533 |
Preparation and characterization of 18650 Li(Ni1/3Co1/3Mn1/3)O-2/graphite high power batteries
He YB, Tang ZY, Song QS, Xie H, Yang QH, Liu YG, Ling GW |
| 534 - 541 |
Synthesis and electrochemistry of cubic rocksalt Li-Ni-Ti-O compounds in the phase diagram of LiNiO2-LiTiO2-Li[Li1/3Ti2/3]O-2
Zhang LQ, Noguchi H, Li DC, Muta T, Wang XQ, Yoshio M, Taniguchi I |
| 542 - 548 |
High reversible capacities of graphite and SiO/graphite with solvent-free solid polymer electrolyte for lithium-ion batteries
Kobayashi Y, Seki S, Mita Y, Ohno Y, Miyashiro H, Charest P, Guerfi A, Zaghib K |
| 549 - 553 |
Electrodeposition of cobalt from spent Li-ion battery cathodes by the electrochemistry quartz crystal microbalance technique
Garcia EM, Santos JS, Pereira EC, Freitas MBJG |
| 554 - 558 |
Development of an Aluminum-laminated Lithium-ion battery for Hybrid electric vehicle application
Kohno K, Koishikawa Y, Yagi Y, Horiba T |
| 559 - 565 |
A new lead alloy current-collector manufactured by a powder rolling process and its corrosion behavior under lead-acid battery conditions
Sakai M, Kondo Y, Minoura S, Sakamoto T, Hirasawa T |
| 566 - 569 |
Nanostructured Mg2Ni materials prepared by cold rolling and used as negative electrode for Ni-MH batteries
Pedneault S, Huot J, Roue L |
| 570 - 576 |
Influence of polymer concentration and dyes on photovoltaic performance of dye-sensitized solar cell with P(VdF-HFP)-based gel polymer electrolyte
Saikia D, Han CC, Chen-Yang YW |
| 577 - 583 |
Controlled synthesis and photocatalytic investigation of different-shaped one-dimensional titanic acid nanomaterials
Li QY, Lu GX |
| 584 - 588 |
Efficient polysulfide electrolyte for CdS quantum dot-sensitized solar cells
Lee YL, Chang CH |
| 589 - 594 |
The porous structures of activated carbon aerogels and their effects on electrochemical performance
Wang JB, Yang XQ, Wu DC, Fu RW, Dresselhaus MS, Dresselhaus G |
