1. Benioff, M. R., Lazowska, E. D., Bajcsy, R., Hannigan, W. J., Jr. J. C. B., Javitt, J. C., Celis, P., Klavans, J. L., Evans, P. T., Leighton, F. T., Fernandez, M. A., Fiallo, L. E., Mortazavian, H., Griffiths, J.M., Mott, R. D., Neupert, P. M., Noam, E. M., Patterson, D. A., Quintanilla, A. G., Reed, D. A., Spafford, E. H., Staelin, D. H., Tippett, P. S., Yang, G., Reed, D. A., Bajcsy, R., Fernandez, M. A., Griffiths, J.M., Mott, R. D., Dongarra, J., and Johnson, C. R.Report to the President - Computational Science: Ensuring America’s Competitiveness, 2005.
2. Unravelling combustion mechanisms through a quantitative understanding of elementary reactions
3. Cool flame partial oxidation and its role in combustion and reforming of fuels for fuel cell systems
4. Homogeneous kinetics and equilibrium predictions of coking propensity in the anode channels of direct oxidation solid-oxide fuel cells using dry natural gas
5. Elementary reaction rate model for MPA oxidation in supercritical waterElectronic supplementary information (ESI) available: Full MPA SCWO reaction mechanisms. See http://www.rsc.org/suppdata/cp/b4/b402743d/