| 231 - 246 |
Progress in understanding and development of Ba0.5Sr0.5Co0.8Fe0.2O3-delta-based cathodes for intermediate-temperature solid-oxide fuel cells: A review
Zhou W, Ran R, Shao ZP |
| 247 - 257 |
Ce0.9Sr0.1VOx (x=3, 4) as anode materials for H2S-containing CH4 fueled solid oxide fuel cells
Danilovic N, Luo JL, Chuang KT, Sanger AR |
| 258 - 266 |
Membrane electrode assemblies for high-temperature polymer electrolyte fuel cells based on poly(2,5-benzimidazole) membranes with phosphoric acid impregnation via the catalyst layers
Wannek C, Lehnert W, Mergel J |
| 267 - 278 |
Measurement of oxygen chemical potential in Gd2O3-doped ceria-Y2O3-stabilized zirconia bi-layer electrolyte, anode-supported solid oxide fuel cells
Lim HT, Virkar AV |
| 279 - 284 |
Novel Pd-Pb/C bimetallic catalysts for direct formic acid fuel cells
Yu XW, Pickup PG |
| 285 - 290 |
A facile method to synthesize well-dispersed PtRuMoOx and PtRuWOx nanoparticles and their electrocatalytic activities for methanol oxidation
Huang T, Zhang D, Xue LG, Cai WB, Yu AS |
| 291 - 296 |
Co-doped Sr2FeNbO6 as cathode materials for intermediate-temperature solid oxide fuel cells
Xia T, Lin N, Zhao H, Huo LH, Wang JP, Grenier JC |
| 297 - 303 |
Development of carbon nanotubes based gas diffusion layers by in situ chemical vapor deposition process for proton exchange membrane fuel cells
Kannan AM, Kanagala P, Veedu V |
| 304 - 309 |
Analysis of chitin particle size on maximum power generation, power longevity, and Coulombic efficiency in solid-substrate microbial fuel cells
Rezaei F, Richard TL, Logan BE |
| 310 - 315 |
Aluminum chloride for accelerating hydrogen generation from sodium borohydride
Demirci UB, Akdim O, Miele P |
| 316 - 323 |
Ionic conductivity improvement in primary pores of fuel cell catalyst layers: Electropolymerization of m-aminobenzenesulfonic acid and its effect on the performance
Tominaka S, Goto K, Momma T, Osaka T |
| 324 - 329 |
Effect of boron doping in the carbon support on platinum nanoparticles and carbon corrosion
Acharya CK, Li W, Liu ZF, Kwon G, Turner CH, Lane AM, Nikles D, Klein T, Weaver M |
| 330 - 335 |
Tungsten oxide nanowires grown on carbon paper as Pt electrocatalyst support for high performance proton exchange membrane fuel cells
Saha MS, Banis MN, Zhang Y, Li RY, Sun XL, Cai M, Wagner FT |
| 336 - 343 |
A facile surface modification of Nafion membrane by the formation of self-polymerized dopamine nano-layer to enhance the methanol barrier property
Wang JT, Xiao LL, Zhao YN, Wu H, Jiang ZY, Hou WQ |
| 344 - 352 |
Solid Oxide Fuel Cells damage mechanisms due to Ni-YSZ re-oxidation: Case of the Anode Supported Cell
Laurencin J, Delette G, Morel B, Lefebvre-Joud F, Dupeux M |
| 353 - 359 |
Self-assembled nanocomposite organic-inorganic proton conducting sulfonated poly-ether-ether-ketone (SPEEK)-based membranes: Optimized mechanical, thermal and electrical properties
Sgreccia E, Di Vona ML, Licoccia S, Sganappa M, Casciola M, Chailan JF, Knauth P |
| 360 - 366 |
Self-sustained operation of a kW(e)-class kerosene-reforming processor for solid oxide fuel cells
Yoon S, Bae Y, Kim S, Yoo YS |
| 367 - 371 |
Unbiased characterization of three-phase microstructure of porous lanthanum doped strontium manganite/yttria-stabilized zirconia composite cathodes for solid oxide fuel cells using atomic force microscopy and stereology
Zhang S, Lynch M, Gokhale AM, Liu M |
| 372 - 375 |
Kinetic study of formic acid oxidation on carbon supported Pd electrocatalyst
Wang YJ, Wu B, Gao Y, Tang YW, Lu TH, Xing W, Liu CP |
| 376 - 380 |
In-fibre Bragg grating sensors for distributed temperature measurement in a polymer electrolyte membrane fuel cell
David NA, Wild PM, Hu JW, Djilali N |
| 381 - 384 |
Pd-impregnated SYT/LDC composite as sulfur-tolerant anode for solid oxide fuel cells
Lu XC, Zhu JH, Yang ZG, Xia GG, Stevenson JW |
| 385 - 390 |
The use of polypyrrole modified carbon-supported cobalt hydroxide as cathode and anode catalysts for the direct borohydride fuel cell
Qin HY, Liu ZX, Ye LQ, Zhu JK, Li ZP |
| 391 - 395 |
Investigation of PtCoCr/C catalysts for methanol electro-oxidation identified by a thin film combinatorial method
Jeon MK, Cooper JS, McGinn PJ |
| 396 - 399 |
Perovskite-related intergrowth cathode materials with thin YSZ electrolytes for intermediate temperature solid oxide fuel cells
Torres-Garibay C, Kovar D |
| 400 - 407 |
Thermal stress modeling of anode supported micro-tubular solid oxide fuel cell
Cui DA, Cheng MJ |
| 408 - 413 |
Investigation on silver electric adhesive doped with Al2O3 ceramic particles for sealing planar solid oxide fuel cell
Zhou XL, Sun KN, Yan Y, Le SR, Zhang NQ, Sun W, Wang P |
| 414 - 422 |
Effects of operating conditions on the performance of a micro-tubular solid oxide fuel cell (SOFC)
Serincan MF, Pasaogullari U, Sammes NM |
| 423 - 428 |
New anodic diffusive layer for passive micro-direct methanol fuel cell
Yuan T, Zou ZQ, Chen M, Li ZL, Xia BJ, Yang H |
| 429 - 434 |
Performance of carbon dioxide vent for direct methanol fuel cells
Prakash S, Kohl PA |
| 435 - 441 |
Heat sources in proton exchange membrane (PEM) fuel cells
Ramousse J, Lottin O, Didierjean S, Maillet D |
| 442 - 450 |
Self-regulating passive fuel supply for small direct methanol fuel cells operating in all orientations
Paust N, Krumbholz S, Munt S, Muller C, Koltay P, Zengerle R, Ziegler C |
| 451 - 456 |
Investigation on the durability of direct methanol fuel cells
Cha HC, Chen CY, Shiu JY |
| 457 - 466 |
Impedance study of membrane dehydration and compression in proton exchange membrane fuel cells
Le Canut JM, Latham R, Merida W, Harrington DA |
| 467 - 474 |
On modeling multi-component diffusion inside the porous anode of solid oxide fuel cells using Fick's model
Cayan FN, Pakalapati SR, Elizalde-Blancas F, Celik I |
| 475 - 485 |
Experimental study of clamping effects on the performances of a single proton exchange membrane fuel cell and a 10-cell stack
Wen CY, Lin YS, Lu CH |
| 486 - 493 |
Global failure criteria for positive/electrolyte/negative structure of planar solid oxide fuel cell
Liu WN, Sun X, Khaleel MA, Qu JM |
| 494 - 501 |
Optimized temperature control system integrated into a micro direct methanol fuel cell for extreme environments
Zhang Q, Wang XH, Zhu YM, Zhou YA, Qiu XP, Liu LT |
| 502 - 514 |
Two-dimensional two-phase mass transport model for methanol and water crossover in air-breathing direct methanol fuel cells
Ye DD, Zhu X, Liao Q, Li J, Fu Q |
| 515 - 524 |
Thermal stress analysis of planar solid oxide fuel cell stacks: Effects of sealing design
Lin CK, Huang LH, Chiang LK, Chyou YP |
| 525 - 533 |
Optimal fuzzy power control and management of fuel cell/battery hybrid vehicles
Li CY, Liu GP |
| 534 - 543 |
Scale effect and two-phase flow in a thin hydrophobic porous layer. Application to water transport in gas diffusion layers of proton exchange membrane fuel cells
Rebai M, Prat M |
| 544 - 551 |
Assembly pressure and membrane swelling in PEM fuel cells
Zhou Y, Lin G, Shih AJ, Hu SJ |
| 552 - 555 |
Fabrication and characterization of a cathode-supported tubular solid oxide fuel cell
Zhao CH, Liu RZ, Wang SR, Wang ZR, Qian JQ, Wen TL |
| 556 - 561 |
An onboard hydrogen generation method based on hydrides and water recovery for micro-fuel cells
Zhu L, Swaminathan V, Gurau B, Masel RI, Shannon MA |
| 562 - 572 |
Feasibility investigations on multi-cutter milling process: A novel fabrication method for microreactors with multiple microchannels
Pan MQ, Zeng DH, Tang Y |
| 573 - 581 |
On-board hydrogen storage and production: An application of ammonia electrolysis
Boggs BK, Botte GG |
| 582 - 587 |
Catalytic effect of titanium nitride nanopowder on hydrogen desorption properties of NaAlH4 and its stability in NaAlH4
Kim JW, Shim JH, Kim SC, Remhof A, Borgschulte A, Friedrichs O, Gremaud R, Pendolino F, Zuttel A, Cho YW, Oh KH |
| 588 - 598 |
Nanostructures and lithium electrochemical reactivity of lithium titanites and titanium oxides: A review
Yang ZG, Choi D, Kerisit S, Rosso KM, Wang DH, Zhang J, Graff G, Liu J |
| 599 - 605 |
Lithium insertion in graphite from ternary ionic liquid-lithium salt electrolytes I. Electrochemical characterization of the electrolytes
Appetecchi GB, Montanino M, Balducci A, Lux SF, Winterb M, Passerini S |
| 606 - 611 |
Lithium insertion in graphite from ternary ionic liquid-lithium salt electrolytes: II. Evaluation of specific capacity and cycling efficiency and stability at room temperature
Lux SF, Schmuck M, Appetecchi GB, Passerini S, Winter M, Balducci A |
| 612 - 617 |
Modern generation of polymer electrolytes based on lithium conductive imidazole salts
Niedzicki L, Kasprzyk M, Kuziak K, Zukowska GZ, Armand M, Bukowska M, Marcinek M, Szczecinski P, Wieczorek W |
| 618 - 626 |
Influence of S and Ni co-doping on structure, band gap and electrochemical properties of lithium manganese oxide synthesized by soft chemical method
Raja MW, Mahanty S, Basu RN |
| 627 - 635 |
Lithium-storage and cycleability of nano-CdSnO3 as an anode material for lithium-ion batteries
Sharma Y, Sharma N, Rao GVS, Chowdari BVR |
| 636 - 643 |
Electrochemical and thermal properties of graphite electrodes with imidazolium- and piperidinium-based ionic liquids
Profatilova IA, Choi NS, Roh SW, Kim SS |
| 644 - 651 |
Improvement of cyclability of Si as anode for Li-ion batteries
Ding N, Xu J, Yao YX, Wegner G, Lieberwirth I, Chen CH |
| 652 - 659 |
In situ X-ray diffraction studies of mixed LiMn2O4-LiNi1/3Co1/3Mn1/3O2 composite cathode in Li-ion cells during charge-discharge cycling
Nam KW, Yoon WS, Shin H, Chung KY, Choi S, Yang XQ |
| 660 - 667 |
Formation mechanism of LiFePO4/C composite powders investigated by X-ray absorption spectroscopy
Hsu KF, Hu SK, Chen CH, Cheng MY, Tsay SY, Chou TC, Sheu HS, Lee JF, Hwang BJ |
| 668 - 673 |
Synthesis and electrochemical properties of single-crystalline LiV3O8 nanorods as cathode materials for rechargeable lithium batteries
Liu HM, Wang YG, Wang KX, Wang YR, Zhou HS |
| 674 - 678 |
Relationship between carbon corrosion and positive electrode potential in a proton-exchange membrane fuel cell during start/stop operation
Kim J, Lee J, Tak Y |
| 679 - 683 |
Effect of cathode active materials produced by a wet-type jet mill on lithium cell performance
Tsujikawa T, Hirai T |
| 684 - 688 |
X-ray diffraction study on LixCoO2 below ambient temperature
Mukai K, Nozaki H, Ikedo Y, Sugiyama J, Ariyoshi K, Ohzuku T |
| 689 - 692 |
Li-ion diffusion kinetics in LiCoPO4 thin films deposited on NASICON-type glass ceramic electrolytes by magnetron sputtering
Xie J, Imanishi N, Zhang T, Hirano A, Takeda Y, Yamamoto Y |
| 693 - 697 |
Electrochemical performance of nanostructured spinel LiMn2O4 in different aqueous electrolytes
Tian L, Yuan AB |
| 698 - 702 |
2LiH+M (M = Mg, Ti): New concept of negative electrode for rechargeable lithium-ion batteries
Oumellal Y, Rougier A, Tarascon JM, Aymard L |
| 703 - 707 |
Decreasing the initial irreversible capacity loss of graphite negative electrode by alkali-addition
Sano A, Kurihara M, Ogawa K, Iijima T, Maruyama S |
| 708 - 713 |
A new low-temperature synthesis and electrochemical properties of LiV3O8 hydrate as cathode material for lithium-ion batteries
Feng Y, Hou F, Li YL |
| 714 - 718 |
Decreasing the initial irreversible capacity loss by addition of cyclic sulfate as electrolyte additives
Sano A, Maruyama S |
| 719 - 723 |
Hydrothermal synthesis of Co2SnO4 nanocrystals as anode materials for Li-ion batteries
Wang G, Gao XP, Shen PW |
| 724 - 729 |
Microstructure and electrochemical corrosion behavior of a Pb-1 wt%Sn alloy for lead-acid battery components
Peixoto LC, Osorio WR, Garcia A |
| 730 - 735 |
Three-layered absorptive glass mat separator with membrane for application in valve-regulated lead-acid batteries
Naidenov V, Pavlov D, Cherneva M |
| 736 - 738 |
Ln(0.6)Sr(0.4)Co(1-y)Fe(y)O(3-delta) (Ln = La and Nd; y = 0 and 0.5) cathodes with thin yttria-stabilized zirconia electrolytes for intermediate temperature solid oxide fuel cells (vol 187, pg 480, 2009)
Torres-Garibay C, Kovar D, Manthiram A |
