| 1 - 8 |
Poly(arylene ether)s with pendant sulfoalkoxy groups prepared by direct copolymerization method for proton exchange membranes
Pang JH, Zhang HB, Li XF, Liu BJ, Jiang ZH |
| 9 - 15 |
Performance evaluation of passive direct methanol fuel cell with methanol vapour supplied through a flow channel
Chang I, Ha S, Kim J, Lee J, Cha SW |
| 16 - 22 |
Physical and electrochemical characterizations of PtPb/C catalyst prepared by pyrolysis of platinum(II) and lead(II) acetylacetonate
Liu ZL, Guo B, Tay SW, Hong L, Zhang XH |
| 23 - 28 |
An original laboratory X-ray diffraction method for in situ investigations on the water dynamics in a fuel cell proton exchange membrane
Isopo A, Albertini VR |
| 29 - 37 |
Characterisation of porous carbon electrode materials used in proton exchange membrane fuel cells via gas adsorption
Watt-Smith MJ, Rigby SP, Ralph TR, Walsh FC |
| 38 - 43 |
Carbon film coating on gas diffusion layer for proton exchange membrane fuel cells
Lin JH, Chen WH, Su SH, Liao YK, Ko TH |
| 44 - 51 |
Study of poly(vinyl alcohol)/titanium oxide composite polymer membranes and their application on alkaline direct alcohol fuel cell
Yang CC, Chiu SJ, Lee KT, Chien WC, Lin CT, Huang CA |
| 52 - 59 |
Micro modeling of solid oxide fuel cell anode based on stochastic reconstruction
Suzue Y, Shikazono N, Kasagi N |
| 60 - 76 |
Theoretical study of the hydrogen adsorption on AlB nanowire
Fukushima A, Doi K, Senami M, Tachibana A |
| 77 - 83 |
Thermal, mechanical and phase stability of LaCoO3 in reducing and oxidizing environments
Radovic M, Speakman SA, Allard LF, Payzant EA, Lara-Curzio E, Kriven WM, Lloyd J, Fegely L, Orlovskaya N |
| 84 - 89 |
Development of 1 kW class solid oxide fuel cell stack using anode-supported planar cells
Yokoo M, Tabata Y, Yoshida Y, Orui H, Hayashi K, Nozaki Y, Nozawa K, Arai H |
| 90 - 94 |
Bipolar plate made of carbon fiber epoxy composite for polymer electrolyte membrane fuel cells
Hwang IU, Yu HN, Kim SS, Lee DG, Do Suh J, Lee SH, Ahn BK, Kim SH, Lim TW |
| 95 - 98 |
A direct borohydride fuel cell based on poly(vinyl alcohol)/hydroxyapatite composite polymer electrolyte membrane
Yang CC, Li YJ, Chiu SJ, Lee KT, Chien WC, Huang CA |
| 99 - 103 |
Preparation and performance of nano silica/Nafion composite membrane for proton exchange membrane fuel cells
Wang KP, McDermid S, Li J, Kremliakova N, Kozak P, Song CJ, Tang YH, Zhang JL, Zhang JJ |
| 104 - 119 |
A review of PEM fuel cell durability: Degradation mechanisms and mitigation strategies
Wu JF, Yuan XZ, Martin JJ, Wang HJ, Zhang JJ, Shen J, Wu SH, Merida W |
| 120 - 128 |
Channel intrusion of gas diffusion media and the effect on fuel cell performance
Lai YH, Rapaport PA, Ji C, Kumar V |
| 129 - 142 |
Charge, mass and heat transfer interactions in solid oxide fuel cells operated with different fuel gases - A sensitivity analysis
Nagel FP, Schildhauer TJ, Biollaz SMA, Stucki S |
| 143 - 164 |
Performance comparison of planar, tubular and Delta8 solid oxide fuel cells using a generalized finite volume model
Nagel FP, Schildhauer TJ, Biollaz SMA, Wokaun A |
| 165 - 171 |
Highly efficient single-layer gas diffusion layers for the proton exchange membrane fuel cell
Hung TF, Huang J, Chuang HJ, Bai SH, Lai YJ, Chen-Yang YW |
| 172 - 179 |
MnCo1.9Fe0.1O4 spinel protection layer on commercial ferritic steels for interconnect applications in solid oxide fuel cells
Montero X, Tietz F, Sebold D, Buchkremer HR, Ringuede A, Cassir M, Laresgoiti A, Villarreal I |
| 180 - 190 |
Characterization of a liquid feed direct methanol fuel cell with Sierpinski carpets fractal current collectors
Chang JY, Kuan YD, Lee SM, Lee SR |
| 191 - 196 |
Ink-jet printing of electrolyte and anode functional layer for solid oxide fuel cells
Young D, Sukeshini AM, Cummins R, Xiao H, Rottmayer M, Reitz T |
| 197 - 203 |
Fabrication and investigation of SiO2 supported sulfated zirconia/Nafion (R) self-humidifying membrane for proton exchange membrane fuel cell applications
Bi C, Zhang HM, Zhang Y, Zhu XB, Ma YW, Dai H, Xiao SH |
| 204 - 211 |
Relative humidity control in polymer electrolyte membrane fuel cells without extra humidification
Riascos LAM |
| 212 - 219 |
Analysis of flooding as a stochastic process in polymer electrolyte membrane (PEM) fuel cells by impedance techniques
Roy SK, Orazem ME |
| 220 - 228 |
The effect of surface treatment on the oxidation of ferritic stainless steels used for solid oxide fuel cell interconnects
Cooper L, Benhaddad S, Wood A, Ivey DG |
| 229 - 237 |
Fabrication of an anode-supported yttria-stabilized zirconia thin film for solid-oxide fuel cells via wet powder spraying
Zhou W, Shi HG, Ran R, Cai R, Shao ZP, Jin WQ |
| 238 - 244 |
Effect of pre-oxidation and environmental aging on the seal strength of a novel high-temperature solid oxide fuel cell (SOFC) sealing glass with metallic interconnect
Chou YS, Stevenson JW, Singh P |
| 245 - 250 |
Studies of performance decay of Pt/C catalysts with working time of proton exchange membrane fuel cell
Wang ZB, Zuo PJ, Wang XP, Lou J, Yang BQ, Yin GP |
| 251 - 259 |
Degradation measurement and analysis for cells and stacks
Gemmen RS, Williams MC, Gerdes K |
| 260 - 264 |
LaNi4.5Al0.5 alloy doped with Au used as anodic materials in a borohydride fuel cell
Yang ZZ, Wang LB, Gao YF, Mao XB, Ma CA |
| 265 - 275 |
H-2 production from CH4 decomposition: Regeneration capability and performance of nickel and rhodium oxide catalysts
Rivas ME, Hori CE, Fierro JLG, Goldwasser MR, Griboval-Constant A |
| 276 - 283 |
Effect Of Co-3(PO4)(2) coating on Li[Co0.1Ni0.15Li0.2Mn0.55]O-2 cathode material for lithium rechargeable batteries
Lee SH, Koo BK, Kim JC, Kim KM |
| 284 - 287 |
Design of TiO2 nanotube array-based water-splitting reactor for hydrogen generation
Kim EY, Park JH, Han GY |
| 288 - 296 |
Effect of zwitterion on the lithium solid electrolyte interphase in ionic liquid electrolytes
Byrne N, Howlett PC, MacFarlane DR, Smith ME, Howes A, Hollenkamp AF, Bastow T, Hale P, Forsyth M |
| 297 - 302 |
Electrochemical performance of polypyrrole/silver vanadium oxide composite cathodes in lithium primary batteries
Anguchamy YK, Lee JW, Popov BN |
| 303 - 307 |
Effects of reactant dispersion on the structure and electrochemical performance of Li1.2V3O8
Liu YM, Zhou XC, Guo YL |
| 308 - 311 |
Comparison of multiwalled carbon nanotubes and carbon black as percolative paths in aqueous-based natural graphite negative electrodes with high-rate capability for lithium-ion batteries
Lee JH, Kim GS, Choi YM, Il Park W, Rogers JA, Paik U |
| 312 - 317 |
Statistical methodology for predicting the life of lithium-ion cells via accelerated degradation testing
Thomas EV, Bloom I, Christophersen JP, Battaglia VS |
| 318 - 324 |
Novel enhancement of thin-form-factor galvanic cells: Probing halogenated organic oxidizers and metal anodes
Cardenas-Valencia AM, Adornato L, Short RT, Langebrake L |
| 325 - 330 |
A doubly-fed induction generator-based wind generation system with quasi-sine rotor injection
Yuvarajan S, Fan LL |
| 331 - 335 |
Columnar rutile TiO2 based dye-sensitized solar cells by radio-frequency magnetron sputtering
Kang SH, Kang MS, Kim HS, Kim JY, Chung YH, Smyri WH, Sung YE |
