| 1 - 14 |
A review of the main parameters influencing long-term performance and durability of PEM fuel cells
Schmittinger W, Vahidi A |
| 15 - 22 |
Evaluation of Ba0.5Sr0.5Co0.8Fe0.2O3-delta as a potential cathode for an anode-supported proton-conducting solid-oxide fuel cell
Lin Y, Ran R, Zheng Y, Shao ZP, Jin WQ, Xu NP, Ahn JM |
| 23 - 28 |
Modification of sulfonated poly(ether ether ketone) proton exchange membrane for reducing methanol crossover
Zhong SL, Cui XJ, Fu TZ, Na H |
| 29 - 40 |
Numerical analysis of coupled transport and reaction phenomena in an anode-supported flat-tube solid oxide fuel cell
Suzuki M, Shikazona N, Fukagata K, Kasagi N |
| 41 - 45 |
Passive DMFCs with PtRu catalyst on poly(3,4-ethylenedioxythiophene)-polystyrene-4-sulphonate support
Arbizzani C, Biso M, Manferrari E, Mastragostino M |
| 46 - 55 |
Hydrogen production through steam electrolysis: Model-based dynamic behaviour of a cathode-supported intermediate temperature solid oxide electrolysis cell
Udagawa J, Aguiar P, Brandon NP |
| 56 - 62 |
Sulfonated poly(ether ether ketone) as an ionomer for direct methanol fuel cell electrodes
Lee JK, Li W, Manthiram A |
| 63 - 70 |
Functionalized carbon nanotube-poly(arylene sulfone) composite membranes for direct methanol fuel cells with enhanced performance
Joo SH, Pak C, Kim EA, Lee YH, Chang H, Seung D, Choi YS, Park JB, Kim TK |
| 71 - 83 |
Non-isothermal dynamic modelling and optimization of a direct methanol fuel cell
Ko D, Lee M, Jang WH, Krewer U |
| 84 - 91 |
Electrochemically synthesized Cu/Pt core-shell catalysts on a porous carbon electrode for polymer electrolyte membrane fuel cells
Wei ZD, Feng YC, Li L, Liao MJ, Fu Y, Sun CX, Shao ZG, Shen PK |
| 92 - 102 |
Measurement of oxygen chemical potential in thin electrolyte film, anode-supported solid oxide fuel cells
Lim HT, Virkar AV |
| 103 - 113 |
Some fundamental aspects in electrochemical hydrogen purification/compression
Casati C, Longhi P, Zanderighi L, Bianchi F |
| 114 - 121 |
Investigation of the characteristics of a stacked direct borohydride fuel cell for portable applications
Kim C, Kim KJ, Ha MY |
| 122 - 131 |
Effect of CO and CO2 impurities on performance of direct hydrogen polymer-electrolyte fuel cells
Ahluwalia RK, Wang X |
| 132 - 142 |
Plasma sprayed metal supported YSZ/Ni-LSGM-LSCF ITSOFC with nanostructured anode
Hwang CS, Tsai CH, Lo CH, Sun CH |
| 143 - 153 |
Proton conducting CS/P(AA-AMPS) membrane with reduced methanol permeability for DMFCs
Jiang ZY, Zheng XH, Wu H, Wang JT, Wang YB |
| 154 - 161 |
Performance enhancement of a direct borohydride fuel cell in practical running conditions
Kim C, Kim KJ, Ha MY |
| 162 - 166 |
Effects of furan derivatives and phenolic compounds on electricity generation in microbial fuel cells
Catal T, Fan YZ, Li KC, Bermek H, Liu H |
| 167 - 171 |
Nafion-impregnated electrospun polyvinylidene fluoride composite membranes for direct methanol fuel cells
Choi SW, Fu YZ, Ahn YR, Jo SM, Manthiram A |
| 172 - 175 |
A Co-Fe alloy as alternative anode for solid oxide fuel cell
Lu ZG, Zhu JH, Bi ZH, Lu XC |
| 176 - 180 |
Improving the DMFC performance with Ketien Black EC 300J as the additive in the cathode catalyst layer
Wang GX, Sun GQ, Wang Q, Wang S, Guo JS, Gao Y, Xin Q |
| 181 - 184 |
Catalytic performance of Pt film with dendritic structure for PEFC
Yamada K, Miyazaki K, Koji S, Okumura Y, Shibata M |
| 185 - 190 |
Evaluation of TiO2 as catalyst support in Pt-TiO2/C composite cathodes for the proton exchange membrane fuel cell
von Kraemer S, Wikander J, Lindbergh G, Lundblad A, Palmqvist AEC |
| 191 - 194 |
Platinum-sputtered electrode based on blend of carbon nanotubes and carbon black for polymer electrolyte fuel cell
Kim HT, Lee JK, Kim J |
| 195 - 198 |
Thick-film electrolyte (thickness < 20 mu m)-supported solid oxide fuel cells
Joo JH, Choi GM |
| 199 - 204 |
The effect of carbon support treatment on the stability of Pt/C electrocatalysts
Chen WM, Xin Q, Sun GQ, Wang Q, Mao Q, Su HD |
| 205 - 208 |
High performance Pd-based catalysts for oxidation of formic acid
Wang RF, Liao SJ, Ji S |
| 209 - 214 |
Determination of strontium and lanthanum zirconates in YPSZ-LSM mixtures for SOFC
Cortes-Escobedo CA, Munoz-Saldana J, Bolarin-Miro AM, Jesus FSD |
| 215 - 220 |
YSZ-based SOFC with modified electrode/electrolyte interfaces for operating at temperature lower than 650 degrees C
Liu MF, Dong DH, Peng RR, Gao JF, Diwu J, Liu XQ, Meng GY |
| 221 - 226 |
Effect of carbon substrate materials as a Pt-Ru catalyst support on the performance of direct methanol fuel cells
Yoo E, Okada T, Kizuka T, Nakamura J |
| 227 - 231 |
Effect of channel-to-channel cross-flow on local flooding in serpentine flow-fields
Prasad KBS, Jayanti S |
| 232 - 237 |
Conductivity of aromatic-based proton exchange membranes at subzero temperatures
Hou JB, Yu HM, Wang LA, Xing DM, Hou ZJ, Ming PW, Shao ZG, Yi BL |
| 238 - 242 |
Evaluation of Pt-Ru-Ni and Pt-Sn-Ni catalysts as anodes in direct ethanol fuel cells
Ribadeneira E, Hoyos BA |
| 243 - 252 |
Sequential flow membraneless microfluidic fuel cell with porous electrodes
Salloum KS, Hayes JR, Friesen CA, Posner JD |
| 253 - 264 |
Anode-pore tortuosity in solid oxide fuel cells found from gas and current flow rates
Schmidt VH, Tsai CL |
| 265 - 275 |
Design methodology for membrane-based plate-and-frame fuel cell humidifiers
Huizing R, Fowler M, Merida W, Dean J |
| 276 - 282 |
Effect of carbon fiber paper made from carbon felt with different yard weights on the performance of low temperature proton exchange membrane fuel cells
Liu CH, Ko TH, Chang EC, Lyu HD, Liao YK |
| 283 - 293 |
Modeling and simulation of the anode in direct ethanol fuels cells
Sousa R, dos Anjos DM, Tremiliosi G, Gonzalez ER, Coutanceau C, Sibert E, Leger JM, Kokoh KB |
| 294 - 300 |
Low-temperature sintering of lanthanum strontium manganite-based contact pastes for SOFCs
McCarthy BP, Pederson LR, Chou Y, Zhou XD, Surdoval WA, Wilson LC |
| 301 - 308 |
Experimental study on effect of compaction pressure on performance of SOFC anodes
Chen KF, Lu Z, Ai N, Chen XJ, Huang XQ, Su WH |
| 309 - 321 |
Computationally efficient modeling of the dynamic behavior of a portable PEM fuel cell stack
Philipps SP, Ziegler C |
| 322 - 329 |
Model predictive control of water management in PEMFC
Zhang LY, Pan M, Quan SH |
| 330 - 342 |
On control concepts to prevent fuel starvation in solid oxide fuel cells
Gaynor R, Mueller F, Jabbari F, Brouwer J |
| 343 - 353 |
Comparative finite element analysis of the stress-strain states in three different bonded solid oxide fuel cell seal designs
Weil KS, Koeppel BJ |
| 354 - 364 |
Hydrogen production through steam electrolysis: Control strategies for a cathode-supported intermediate temperature solid oxide electrolysis cell
Udagawa J, Aguiar P, Brandon NP |
| 365 - 372 |
Separate measurement of current density under the channel and the shoulder in PEM fuel cells
Wang L, Liu HT |
| 373 - 379 |
The electrochemical properties of LSM-based cathodes fabricated by electrostatic spray assisted vapour deposition
Yan JW, Hou XH, Choy KL |
| 380 - 392 |
A hierarchical modeling approach to the simulation and control of planar solid oxide fuel cells
Sorrentino M, Pianese C, Guezennec YG |
| 393 - 401 |
Stress and plastic deformation of MEA in fuel cells - Stresses generated during cell assembly
Bograchev D, Gueguen M, Grandidier JC, Martemianov S |
| 402 - 409 |
Numerical study of a novel micro-diaphragm flow channel with piezoelectric device for proton exchange membrane fuel cells
Ma HK, Huang SH, Chen BR, Cheng LW |
| 410 - 422 |
Advanced computational tools for PEM fuel cell design Part 1. Development and base case simulations
Sui PC, Kumar S, Djilali N |
| 423 - 432 |
Advanced computational tools for PEM fuel cell design Part 2. Detailed experimental validation and parametric study
Sui PC, Kumar S, Djilali N |
| 433 - 439 |
Oxidation resistance of novel ferritic stainless steels alloyed with titanium for SOFC interconnect applications
Jablonski PD, Alman DE |
| 440 - 451 |
Understanding cathode flooding and dry-out for water management in air breathing PEM fuel cells
Paquin M, Frechette LG |
| 452 - 460 |
PEM fuel cell stack testing in the framework of an EU-harmonized fuel cell testing protocol: Results for an 11 kW stackd
Bove R, Malkow T, Saturnio A, Tsotridis G |
| 461 - 467 |
An experimental study and model validation of a membrane humidifier for PEM fuel cell humidification control
Chen DM, Li W, Peng H |
| 468 - 475 |
Frequency control in micro-grid power system combined with electrolyzer system and fuzzy PI controller
Li XJ, Song YJ, Han SB |
| 476 - 483 |
Effects of operating conditions on the performances of individual cell and stack of PEM fuel cell
Jang JH, Chiu HC, Yan WM, Sun WL |
| 484 - 490 |
Effects of electroless deposition conditions on microstructures of cobalt-phosphorous catalysts and their hydrogen generation properties in alkaline sodium borohydride solution
Eom K, Cho K, Kwon H |
| 491 - 497 |
Hydrogen storage properties of the Mg-Ti-H system prepared by high-energy-high-p res sure reactive milling
Choi YJ, Lu J, Sohn HY, Fang ZZ |
| 498 - 505 |
Influence of different ruthenium(II) bipyridyl complex on the photocatalytic H-2 evolution over TiO2 nanoparticles with mesostructures
Peng TY, Ke DN, Cai P, Dai K, Ma L, Zan L |
| 506 - 515 |
Improved configuration of supported nickel catalysts in a steam reformer for effective hydrogen production from methane
Lee S, Bae J, Lim S, Park J |
| 516 - 529 |
Hydrogen production by reforming of liquid hydrocarbons in a membrane reactor for portable power generation - Model simulations
Damle AS |
| 530 - 534 |
Alkaline sodium borohydride gel as a hydrogen source for PEMFC or an energy carrier for NaBH4-air battery
Liu BH, Li ZP, Chen LL |
| 535 - 538 |
Comparative studies of reaction rates of NH3 with MgH2 and LiH
Markmaitree T, Osborn W, Shaw LL |
| 539 - 545 |
Electrochemical AFM study of LiMn2O4 thin film electrodes exposed to elevated temperatures
Doi T, Inaba M, Tsuchiya H, Jeong SK, Iriyama Y, Abe T, Ogumi Z |
| 546 - 552 |
Amphoteric effects of Fe2P on electrochemical performance of lithium iron phosphate-carbon composite synthesized by ball-milling and microwave heating
Song MS, Kim DY, Kang YM, Kim YI, Lee JY, Kwon HS |
| 553 - 560 |
Synthesis and characterization of Carbon Nano Fiber/LiFePO4 composites for Li-ion batteries
Bhuvaneswari MS, Bramnik NN, Ensling D, Ehrenberg H, Jaegermann W |
| 561 - 567 |
Diphenyloctyl phosphate and tris(2,2,2-trifluoroethyl) phosphite as flame-retardant additives for Li-ion cell electrolytes at elevated temperature
Nam TH, Shim EG, Kim JG, Kim HS, Moon SI |
| 568 - 575 |
The effect of CoSn/CoSn2 phase ratio on the electrochemical behaviour of Sn40Co40C20 ternary alloy electrodes in lithium cells
Hassoun J, Ochal P, Panero S, Mulas G, Minella CB, Scrosati B |
| 576 - 581 |
Li-ion transport kinetics in LiMn2O4 thin films prepared by radio frequency magnetron sputtering
Xie J, Tanaka T, Imanishi N, Matsumura T, Hirano A, Takeda Y, Yamamoto O |
| 582 - 585 |
Electrical conductivity and charge compensation in Ta doped Li4Ti5O12
Wolfenstine J, Allen JL |
| 586 - 590 |
LiBF3Cl as an alternative salt for the electrolyte of Li-ion batteries
Zhang SS |
| 591 - 596 |
Cycling performance of lithium metal polymer cells assembled with ionic liquid and poly(3-methyl thiophene)/carbon nanotube composite cathode
Kim DW, Sivakkumar SR, MacFarlane DR, Forsyth M, Sun YK |
| 597 - 601 |
Improvement of capacity fading resistance of LiMn2O4 by amphoteric oxides
Park SB, Shin HC, Lee WG, Cho WI, Jang H |
| 602 - 606 |
Phenyl tris-2-methoxydiethoxy silane as an additive to PC-based electrolytes for lithium-ion batteries
Xia Q, Wang B, Wu YP, Luo HJ, Zhao SY, van Ree T |
| 607 - 611 |
Preparation of hybrid organic-inorganic materials based on a di-ureasil matrix doped with lithium bis(trifluoromethanesulfonyl)imide
Barbosa P, Rodrigues LC, Silva MM, Smith MJ |
| 612 - 620 |
Effect of electrolyte composition on initial cycling and impedance characteristics of lithium-ion cells
Abraham DP, Furczon MM, Kang SH, Dees DW, Jansen AN |
| 621 - 629 |
A novel flow battery - A lead-acid battery based on an electrolyte with soluble lead(II) V. Studies of the lead negative electrode
Pletcher D, Zhou H, Kear G, Low CTJ, Walsh FC, Wills RGA |
| 630 - 634 |
A novel flow battery - A lead-acid battery based on an electrolyte with soluble lead(II) Part VI. Studies of the lead dioxide positive electrode
Pletcher D, Zhou H, Kear G, Low CTJ, Walsh FC, Wills RGA |
| 635 - 640 |
Polyaniline as possible anode materials for the lead acid batteries
Grgur BN, Ristic V, Gvozdenovic MM, Maksimovic MD, Jugovic BZ |
| 641 - 647 |
Innovative microbial fuel cell for electricity production from anaerobic reactors
Min B, Angelidaki I |
| 648 - 652 |
Effects of addition of manganese and LmNi(4.1)Al(0.25)Mn(0.3)Co(0.65) alloy on electrochemical characteristics of Ti0.32Cr0.43-xMnxV0.25 (x=0-0.08) alloys as anode materials for nickel-metal-hydride batteries
Kim JY, Park CN, Shim JS, Park CJ, Choi J, Noh H |
| 653 - 656 |
Low temperature electrochemical cells with sodium beta''-alumina solid electrolyte (BASE)
Girija TC, Virkar AV |
| 657 - 663 |
Improving power density and efficiency of miniature radioisotopic thermoelectric generators
Whalen SA, Apblett CA, Aselage TL |
| 664 - 670 |
Electrochemical properties of nanosized hydrous manganese dioxide synthesized by a self-reacting microemulsion method
Xu CJ, Li BH, Du HD, Kang FY, Zeng YQ |
| 671 - 675 |
Electrochemical capacitor performance of N-doped mesoporous carbons prepared by ammoxidation
Kim ND, Kim W, Joo JB, Oh S, Kim P, Kim Y, Yi J |
| 676 - 681 |
Biomolecule-assisted synthesis of cobalt sulfide nanowires for application in supercapacitors
Bao SJ, Li CM, Guo CX, Qiao Y |
