| 337 - 346 |
Forecasting development of elemental technologies and effect of R&D investments for polymer electrolyte fuel cells in Japan
Kosugi T, Hayashi A, Tokimatsu K |
| 347 - 354 |
Feasibility study on hydrogen refueling infrastructure for fuel cell vehicles using the off-peak power in Japan
Oi T, Wada K |
| 355 - 367 |
The future of hydrogen infrastructure for fuel cell vehicles in China and a case of application in Beijing
Feng W, Wang SJ, Ni WD, Chen CH |
| 369 - 374 |
Plug-in fuel cell hybrids as transition technology to hydrogen infrastructure
Suppes GJ, Lopes S, Chiu CW |
| 375 - 379 |
Electricity from ethanol fed SOFCs: the expectations for sustainable development and technological benefits
Douvartzides SL, Coutelieris FA, Demin AK, Tsiakaras PE |
| 381 - 391 |
Analytical and experimental investigations of a proton exchange membrane fuel cell
Ferng YM, Tzang YC, Pei BS, Sun CC, Su A |
| 393 - 417 |
Comparison of conventional and membrane reactor fuel processors for hydrocarbon-based PEM fuel cell systems
Lattner JR, Harold MP |
| 419 - 427 |
Production of hydrogen for fuel cells by catalytic partial oxidation of ethanol over structured Ru catalysts
Liguras DK, Goundani K, Vefykios XE |
| 429 - 435 |
Selective catalytic oxidation of CO in the presence of H-2 over gold catalyst
Luengnaruemitchai A, Osuwan S, Gulari E |
| 437 - 438 |
Hydrogen fueled two wheelers on the Indian roads
Srivastava ON |
| 438 - 440 |
The Mooresville hydrail initiative
Bowman J, Thompson S |
