William J. Thomson, PhD
Affiliations: | The Gene & Linda Voiland School of Chemical Engineering and Bioengineering | Washington State University, Pullman, WA, United States |
Area:
Heterogeneous CatalysisWebsite:
http://voiland.wsu.edu/~thomson/Google:
"William Thomson"Mean distance: 12.65 | S | N | B | C | P |
Parents
Sign in to add mentor| Gordon Ronald Bopp | grad student | 1969 | University of Idaho | |
| (Non-isothermal MHD Duct Flow) | ||||
Children
Sign in to add trainee| Yong Wang | grad student | WSU | |
| David C. LaMont | grad student | 2004 | WSU |
| Alexandru Platon | grad student | 2004 | WSU |
| Anna R. Darujati | grad student | 2005 | WSU |
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Publications
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| Lin SSY, Thomson WJ, Hagensen TJ, et al. (2007) Steam reforming of methanol using supported Mo2C catalysts Applied Catalysis a: General. 318: 121-127 |
| Cheekatamarla PK, Thomson WJ. (2006) Catalytic activity of molybdenum carbide for hydrogen generation via diesel reforming Journal of Power Sources. 158: 477-484 |
| Cheekatamarla PK, Thomson WJ. (2006) Hydrogen generation from 2,2,4-trimethyl pentane reforming over molybdenum carbide at low steam-to-carbon ratios Journal of Power Sources. 156: 520-524 |
| Darujati ARS, Thomson WJ. (2006) Kinetic study of a ceria-promoted Mo2 C / γ - Al2 O3 catalyst in dry-methane reforming Chemical Engineering Science. 61: 4309-4315 |
| Lamont DC, Thomson WJ. (2005) Dry reforming kinetics over a bulk molybdenum carbide catalyst Chemical Engineering Science. 60: 3553-3559 |
| Darujati ARS, Thomson WJ. (2005) Stability of supported and promoted-molybdenum carbide catalysts in dry-methane reforming Applied Catalysis a: General. 296: 139-147 |
| Cheekatamarla PK, Thomson WJ. (2005) Poisoning effect of thiophene on the catalytic activity of molybdenum carbide during tri-methyl pentane reforming for hydrogen generation Applied Catalysis a: General. 287: 176-182 |
| Platon A, Thomson WJ. (2005) Solid acid characteristics and isobutane/butene alkylation Applied Catalysis a: General. 282: 93-100 |
| Platon A, Thomson WJ. (2005) Low-temperature test reaction for hydride transfer on solid acid catalysts Catalysis Letters. 101: 15-20 |
| Pritchard ML, McCauley RL, Gallaher BN, et al. (2004) The effects of sulfur and oxygen on the catalytic activity of molybdenum carbide during dry methane reforming Applied Catalysis a: General. 275: 213-220 |