| 1 - 2 |
Fuel processing for fuel cell applications
Katikaneni S, Gaffney AM, Song CS |
| 3 - 16 |
Fuel processing for fuel cell systems in transportation and portable power applications
Krumpelt M, Krause TR, Carter JD, Kopasz JP, Ahmed S |
| 17 - 49 |
Fuel processing for low-temperature and high-temperature fuel cells - Challenges, and opportunities for sustainable development in the 21st century
Song CS |
| 51 - 64 |
Steam reforming of hydrocarbon fuels
Ming QM, Healey T, Allen L, Irving P |
| 65 - 78 |
CO-free fuel processing for fuel cell applications
Choudhary TV, Goodman DW |
| 79 - 88 |
Steam reforming of methanol over highly active Pd/ZnO catalyst
Chin YH, Dagle R, Hu JL, Dohnalkova AC, Wang Y |
| 89 - 98 |
Influence of preparation method on performance of Cu/Zn-based catalysts for low-temperature steam reforming and oxidative steam reforming of methanol for H-2 production for fuel cells
Shen JP, Song CS |
| 99 - 106 |
The direct carbonate fuel cell technology: advances in multi-fuel processing and internal reforming
Katikaneni S, Yuh C, Abens S, Farooque M |
| 107 - 116 |
A new approach to deep desulfurization of gasoline, diesel fuel and jet fuel by selective adsorption for ultra-clean fuels and for fuel cell applications
Ma XL, Sun L, Song CS |
| 117 - 126 |
Mechanistic studies on thiophene species cracking over USY zeolite
Shan HH, Li CY, Yang CH, Zhao H, Zhao BY, Zhang JF |
| 127 - 138 |
Catalytic activation of core-shell assembled gold nanoparticles as catalyst for methanol electrooxidation
Luo J, Maye MM, Lou YB, Han L, Hepel M, Zhong CJ |
