| 229 - 237 |
A composite anode with reactive methanol filter for direct methanol fuel cell
Wan CH, Lin CH |
| 238 - 243 |
Ag current collector for honeycomb solid oxide fuel cells using LaGaO3-based oxide electrolyte
Zhong H, Matsumoto H, Ishihara T, Toriyama A |
| 244 - 251 |
Effect of a reducing agent for silver on the electrochemical activity of an Ag/Ba0.5Sr0.5Co0.8Fe0.2O3-delta electrode prepared by electroless deposition technique
Zhou W, Ran R, Cai R, Shao ZP, Jin WQ, Xu NP |
| 252 - 260 |
An experimental investigation into micro-fabricated solid oxide fuel cells with ultra-thin La0.6Sr0.4Co0.8Fe0.2O3 cathodes and yttria-doped zirconia electrolyte films
Johnson AC, Lai BK, Xiong H, Ramanathan S |
| 261 - 267 |
Electrochemical activity and stability of dealloyed Pt-Cu and Pt-Cu-Co electrocatalysts for the oxygen reduction reaction (ORR)
Neyerlin KC, Srivastava R, Yu CF, Strasser P |
| 268 - 277 |
Structural, morphological and electrical properties of Gd0.1Ce0.9O1.95 prepared by a citrate complexation method
Fuentes RO, Baker RT |
| 278 - 285 |
The diffusion overpotential increase and appearance of overlapping arcs on the Nyquist plots in the low humidity temperature test conditions of polymer electrolyte fuel cell
Nakamura S, Nishikawa H, Aoki T, Ogami Y |
| 286 - 292 |
Hybrid acid-base polymer membranes prepared for application in fuel cells
Wu D, Xu TW, Wu L, Wu YH |
| 293 - 298 |
Electric field-treated MEAs for improved fuel cell performance
Wang ZT, Wang YX, Xu L, Gao QJ, Wei GQ, Lu J |
| 299 - 304 |
CO tolerant PtRu-MoOx nanoparticles supported on carbon nanofibers for direct methanol fuel cells
Tsiouvaras N, Martinez-Huerta MV, Moliner R, Lazaro MJ, Rodriguez JL, Pastor E, Pena MA, Fierro JLG |
| 305 - 310 |
Structural and electrochemical studies of Ba0.6Sr0.4Co1-yTiyO3-delta as a new cathode material for IT-SOFCs
Zhao HL, Teng DQ, Zhang XH, Zhang CJ, Li X |
| 311 - 319 |
Synthesis and characterization of carbon dioxide and boiling water stable proton conducting double perovskite-type metal oxides
Bhella SS, Thangadurai V |
| 320 - 327 |
A study on novel pulse preparation and electrocatalytic activities of Pt/C-Nafion electrodes for proton exchange membrane fuel cell
Li JJ, Ye F, Chen L, Wang TT, Li JL, Wang XD |
| 328 - 333 |
Performance of organic-inorganic hybrid anion-exchange membranes for alkaline direct methanol fuel cells
Xiong Y, Liu QL, Zhu AM, Huang SM, Zeng QH |
| 334 - 338 |
Chemical degradation of proton conducting perflurosulfonic acid ionomer membranes studied by solid-state nuclear magnetic resonance spectroscopy
Ghassemadeh L, Marrony M, Barrera R, Kreuer KD, Maier J, Muller K |
| 339 - 343 |
Self-assembly of palladium nanoparticles on functional multi-walled carbon nanotubes for formaldehyde oxidation
Zhu ZZ, Wang Z, Li HL |
| 344 - 348 |
Synthesis and properties of (La0.75Sr0.25)(0.95)MnO3 +/-delta nano-powder prepared via Pechini route
Wang JX, Tao YK, Shao J, Wang WG |
| 349 - 352 |
The effect of homovalent A-site substitutions on the ionic conductivity of pyrochlore-type Gd2Zr2O7
Diaz-Guillen JA, Fuentes AF, Diaz-Guillen MR, Almanza JM, Santamaria J, Leon C |
| 353 - 369 |
Microfluidic fuel cells: A review
Kjeang E, Djilali N, Sinton D |
| 370 - 376 |
Performance of a proton exchange membrane fuel cell with a stepped flow field design
Min CH |
| 377 - 384 |
Thermodynamic analysis of solid oxide fuel cells operated with methanol and ethanol under direct utilization, steam reforming, dry reforming or partial oxidation conditions
Cimenti M, Hill JM |
| 385 - 392 |
Nafion (R) nanofibers and their effect on polymer electrolyte membrane fuel cell performance
Snyder JD, Elabd YA |
| 393 - 398 |
Catalyst layer-free carbon-coated steel-An easy route to bipolar plates of polymer electrolyte membrane fuel cells: Characterization on structure and electrochemistry
Chung CY, Chen SK, Chin TS, Ko TH, Lin SW, Chang WM, Hsiao SN |
| 399 - 407 |
Numerical study of thermoelectric characteristics of a planar solid oxide fuel cell with direct internal reforming of methane
Wang Q, Li L, Wang C |
| 408 - 416 |
Optimization of fuel cell system operating conditions for fuel cell vehicles
Zhao H, Burke AF |
| 417 - 427 |
An improved one-dimensional membrane-electrode assembly model to predict the performance of solid oxide fuel cell including the limiting current density
Lee WY, Wee D, Ghoniem AF |
| 428 - 434 |
Oxidation resistance and electrical properties of anodically electrodeposited Mn-Co oxide coatings for solid oxide fuel cell interconnect applications
Wei WF, Chen WX, Ivey DG |
| 435 - 445 |
A general model for air-side proton exchange membrane fuel cell contamination
Shi Z, Song DT, Li H, Fatih K, Tang YH, Zhang JL, Wang ZW, Wu SH, Liu ZS, Wang HJ, Zhang JJ |
| 446 - 449 |
In situ screen-printed BaZr0.1Ce0.7Y0.2O3-delta electrolyte-based protonic ceramic membrane fuel cells with layered SmBaCo2O5+chi cathode
Lin B, Dong YC, Yan RQ, Zhang SQ, Hu MJ, Zhou Y, Meng GY |
| 450 - 454 |
Effect of carbon fiber cloth with different structure on the performance of low temperature proton exchange membrane fuel cells
Liu CH, Ko TH, Kuo WS, Chou HK, Chang HW, Liao YK |
| 455 - 463 |
Market survey of fuel cells in Mexico: Niche for low power portable systems
Ramirez-Salgado J, Dominguez-Aguilar MA |
| 464 - 477 |
Energy analysis of electric vehicles using batteries or fuel cells through well-to-wheel driving cycle simulations
Carnpanari S, Manzolini G, de la Iglesia FG |
| 478 - 484 |
Bluetooth wireless monitoring, diagnosis and calibration interface for control system of fuel cell bus in Olympic demonstration
Hua JF, Lin XF, Xu LF, Li JQ, Ouyang MG |
| 485 - 489 |
Synthesis and electrochemical properties of LSM and LSF perovskites as anode materials for high temperature steam electrolysis
Kong JR, Zhang Y, Deng CS, Xu JM |
| 490 - 495 |
New, ionic liquid-based membranes for lithium battery application
Sirisopanaporn C, Fernicola A, Scrosati B |
| 496 - 499 |
Poly(ethene-1,1,2,2-tetrathiol): Novel cathode material with high specific capacity for rechargeable lithium batteries
Zhang JY, Song ZP, Zhan LZ, Tang J, Zhan H, Zhou YH, Zhan CM |
| 500 - 507 |
From single cell model to battery pack simulation for Li-ion batteries
Dubarry M, Vuillaume N, Liaw BY |
| 508 - 514 |
Nano Li4Ti5O12-LiMn2O4 batteries with high power capability and improved cycle-life
Du Pasquier A, Huang CC, Spitler T |
| 515 - 520 |
Superior hydrogen absorption and desorption behavior of Mg thin films
Qu JL, Wang YT, Xie L, Zheng J, Liu Y, Li XG |
| 521 - 527 |
High-temperature electrochemical performance of Al-alpha-nickel hydroxides modified by metallic cobalt or Y(OH)(3)
Wu QD, Liu S, Li L, Yan TY, Gao XP |
| 528 - 531 |
A discussion on decay of discharge capacity for amorphous Mg-Ni-Nd hydrogen storage alloy
Liang GY, Wu DC, Li L, Huang LJ |
| 532 - 538 |
Silver decorated gamma-manganese dioxide nanorods for alkaline battery cathode
Wang SY, Xie JN, Zhang TR, Varadan VK |
| 539 - 542 |
Solar-to-vehicle (S2V) systems for powering commuters of the future
Birnie DP |
| 543 - 550 |
Electrochemical cyclability mechanism for MnO2 electrodes utilized as electrochemical supercapacitors
Wei WF, Cui XW, Chen WX, Ivey DG |
| 551 - 556 |
Boron and nitrogen co-doped porous carbon and its enhanced properties as supercapacitor
Guo HL, Gao QM |
| 557 - 564 |
Electrophoretic deposition of nickel oxide electrode for high-rate electrochemical capacitors
Wu MS, Huang CY, Lin KH |
| 565 - 569 |
Electrochemical supercapacitor behavior of Ni-3(Fe(CN)(6))(2)(H2O) nanoparticles
Chen J, Huang KL, Liu SQ, Hu X |
| 570 - 579 |
Investigation of the life process of the electric double layer capacitor during float charging
Nozu R, Iizuka M, Nakanishi M, Kotani M |
