| Chemkin-II: A Fortran chemical kinetics package for the analysis of gas-phase chemical kinetics RJ Kee, FM Rupley, JA Miller Sandia National Lab.(SNL-CA), Livermore, CA (United States), 1989 | 5800* | 1989 |
| CHEMKIN-III: A FORTRAN chemical kinetics package for the analysis of gas-phase chemical and plasma kinetics RJ Kee, FM Rupley, E Meeks, JA Miller Sandia National Lab.(SNL-CA), Livermore, CA (United States), 1996 | 2002* | 1996 |
| A Fortran computer code package for the evaluation of gas-phase multicomponent transport properties RJ Kee, G Dixon-Lewis, J Warnatz, ME Coltrin, JA Miller Sandia National Laboratories Report SAND86-8246 13, 80401-1887, 1986 | 1742 | 1986 |
| SENKIN: A FORTRAN program for predicting homogeneous gas phase chemical kinetics with sensitivity analysis AE Lutz, RJ Kee, JA Miller Sandia National Labs., Livermore, CA (USA), 1988 | 1496 | 1988 |
| The Chemkin thermodynamic data base RJ Kee, FM Rupley, JA Miller Sandia National Lab.(SNL-CA), Livermore, CA (United States), 1990 | 1242 | 1990 |
| Chemically reacting flow: theory and practice RJ Kee, ME Coltrin, P Glarborg John Wiley & Sons, 2005 | 1239 | 2005 |
| On reduced mechanisms for methane air combustion in nonpremixed flames RW Bilger, SH Stårner, RJ Kee Combustion and Flame 80 (2), 135-149, 1990 | 1112 | 1990 |
| OPPDIF: A Fortran program for computing opposed-flow diffusion flames AE Lutz, RJ Kee, JF Grcar, FM Rupley Sandia National Lab.(SNL-CA), Livermore, CA (United States), 1997 | 902 | 1997 |
| CHEMKIN: A general-purpose, problem-independent, transportable, FORTRAN chemical kinetics code package RJ Kee, JA Miller, TH Jefferson Sandia Labs., 1980 | 804 | 1980 |
| A computational model of the structure and extinction of strained, opposed flow, premixed methane-air flames RJ Kee, JA Miller, GH Evans, G Dixon-Lewis Symposium (International) on Combustion 22 (1), 1479-1494, 1989 | 745 | 1989 |
| Modeling elementary heterogeneous chemistry and electrochemistry in solid-oxide fuel cells H Zhu, RJ Kee, VM Janardhanan, O Deutschmann, DG Goodwin Journal of the electrochemical society 152 (12), A2427, 2005 | 695 | 2005 |
| Highly durable, coking and sulfur tolerant, fuel-flexible protonic ceramic fuel cells C Duan, RJ Kee, H Zhu, C Karakaya, Y Chen, S Ricote, A Jarry, ... Nature 557 (7704), 217-222, 2018 | 691 | 2018 |
| Kinetic modeling and sensitivity analysis of nitrogen oxide formation in well-stirred reactors P Glarborg, JA Miller, RJ Kee Combustion and flame 65 (2), 177-202, 1986 | 658 | 1986 |
| Highly efficient reversible protonic ceramic electrochemical cells for power generation and fuel production C Duan, R Kee, H Zhu, N Sullivan, L Zhu, L Bian, D Jennings, R O’Hayre Nature Energy 4 (3), 230-240, 2019 | 620 | 2019 |
| Fortran computer-code package for the evaluation of gas-phase viscosities, conductivities, and diffusion coefficients.[CHEMKIN] RJ Kee, J Warnatz, JA Miller Sandia National Labs., Livermore, CA (USA), 1983 | 606 | 1983 |
| Chemical kinetics and combustion modeling JA Miller Brookhaven National Lab.(BNL), Upton, NY (United States), 1993 | 588 | 1993 |
| A mathematical model of the coupled fluid mechanics and chemical kinetics in a chemical vapor deposition reactor ME Coltrin, RJ Kee, JA Miller Journal of the Electrochemical Society 131 (2), 425, 1984 | 537 | 1984 |
| PSR: A FORTRAN program for modeling well-stirred reactors P Glarborg, RJ Kee, JF Grcar, JA Miller | 533 | 1986 |
| CHEMKIN collection RJ Kee Release 3, 1999 | 476 | 1999 |
| Methane reforming kinetics within a Ni–YSZ SOFC anode support ES Hecht, GK Gupta, H Zhu, AM Dean, RJ Kee, L Maier, O Deutschmann Applied Catalysis A: General 295 (1), 40-51, 2005 | 460 | 2005 |
