| 205 - 210 |
Current density distribution in PEFC
Liu ZX, Mao ZQ, Wu B, Wang LS, Schmidt VM |
| 211 - 215 |
Increasing the three-phase boundary by a novel three-dimensional electrode
Xie FY, Tian ZQ, Meng H, Shen PK |
| 216 - 226 |
Optimisation of processing and microstructural parameters of LSM cathodes to improve the electrochemical performance of anode-supported SOFCs
Haanappel VAC, Mertens J, Rutenbeck D, Tropartz C, Herzhof W, Sebold D, Tietz F |
| 227 - 240 |
Finite-volume modeling and hybrid-cycle performance of planar and tubular solid oxide fuel cells
Stiller C, Thorud B, Seljebo S, Mathisen O, Karoliussen H, Bolland O |
| 241 - 249 |
Comparison of the performance of Cu-CeO2-YSZ and Ni-YSZ composite SOFC anodes with H-2, CO, and syngas
Costa-Nunes O, Gorte RJ, Vohs JM |
| 250 - 257 |
Improvement in high temperature proton exchange membrane fuel cells cathode performance with ammonium carbonate
Song Y, Wei Y, Xu H, Williams M, Liu YX, Bonville LJ, Kunz HR, Fenton JM |
| 258 - 264 |
Analysis of an energy recovery system for reformate-based PEM fuel cells involving a binary two-phase mixture
Cao YD |
| 265 - 271 |
Commitment to fuel cell technology? How to interpret carmakers' efforts in this radical technology
van den Hoed R |
| 272 - 285 |
A dynamic simulation tool for hydrogen fuel cell vehicles
Moore RM, Hauer KH, Friedman D, Cunningham J, Badrinarayanan P, Ramaswamy S, Eggert A |
| 286 - 292 |
Multilayered Sn-Zn-Cu alloy thin-film as negative electrodes for advanced lithium-ion batteries
Wang LB, Kitamura S, Obata K, Tanase S, Sakai T |
| 293 - 297 |
Electrochemical properties of the Li-ion polymer batteries with P(VdF-co-HFP)-based gel polymer electrolyte
Kim HS, Periasamy P, Moon SI |
| 298 - 306 |
Calendar life performance of pouch lithium-ion cells
Ramasamy RP, White RE, Popov BN |
| 307 - 315 |
Simulation of passive thermal management system for lithium-ion battery packs
Mills A, Al-Hallaj S |
| 316 - 325 |
Porosity measurements of electrodes used in lead-acid batteries
Ferg EE, Loyson P, Rust N |
| 326 - 339 |
A simplified physics-based model for nickel hydrogen battery
Liu SY, Dougal RA, Weidner JW, Gao LJ |
| 340 - 350 |
Improved performance of rechargeable alkaline batteries via surfactant-mediated electrosynthesis of MnO2
Ghaemi M, Khosravi-Fard L, Neshati J |
| 351 - 358 |
Support vector based battery state of charge estimator
Hansen T, Wang CJ |
| 359 - 368 |
Resistive companion modeling of batteries in a virtual test bed
Zhang Q, Guo QZ, Liu SY, Dougal RA, White RE |
| 369 - 385 |
Activated-carbon electric-double-layer capacitors: electrochemical characterization and adaptive algorithm implementation
Verbrugge MW, Liu P, Soukiazian S |
| 386 - 391 |
A novel electrode material for electric double-layer capacitors
Wei YZ, Fang B, Iwasa S, Kumagai M |
