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Publications  
1. "Interfacial Activities of Crude Oil Surfactants: A Mathematical Approach to Mixed Films", J. Ala. Acad. Sci., 37 228-245 (1966), P. D. Cratin and A. M. Dean.
2. "The Oxidation of Carbon Monoxide by Oxygen in Shock Waves", J. Chem. Phys., 53, 830-838 (1970), A. M. Dean and G. B. Kistiakowsky.
3. "The Oxidation of Carbon Monoxide/Methane Mixtures in Shock Waves", J. Chem. Phys., 54, 1718-1725 (1971), A. M. Dean and G. B. Kistiakowsky.
4. "Effect of Organic Impurities on the Observed Activation Energy of CO2 Dissociation", J. Chem. Phys., 54, 1726-1727 (1971), T. C. Clark, A. M. Dean and G. B. Kistiakowsky.
5. "Dissociation of Carbon Dioxide Behind Reflected Shock Waves", J. Chem. Phys., 58, 5202-5208 (1973), A. M. Dean.
6. "On-Line Computer Acquisition of Data from a Shock Tube Experiment", Chem. Inst., 5, 109-126 (1973), R. Megargle and A. M. Dean.
7. "Reaction of Atomic Oxygen with Carbon Dioxide Behind Reflected Shock Waves", J. Chem. Phys., 60, 307-313 (1974), S. C. Baber and A. M. Dean.
8. "N2O Dissociation Behind Reflected Shock Waves", Int. J. Chem. Kinet., 7, 381-398 (1975), S. C. Baber and A. M. Dean.
9. "Shock Tube Studies of N2O/Ar and N2O/H2/Ar Systems", Int. J. Chem. Kinet., 8, 459-474 (1976), A. M. Dean.
10. "A Shock Tube Study of the Recombination of Carbon Monoxide and Oxygen Atoms", J. Chem. Phys., 66, 598-604 (1977), A. M. Dean and D. C. Steiner.
11. "Shock Tube Studies of the Heats of Formation of SF6, SF5 and SF4", Shock Tube and Shock Wave Research, University of Washington Press, (1978), 238-244, A. H. Britt, L. F. Copenhaver, A. M. Dean and R. C. Warder, Jr.
12. "Shock Tube Study of the H2/O2/CO/Ar and H2/N2O/CO/Ar Systems: Measurements of the Rate Constant for H + N2O = N2 + OH", Combust. Flame, 32, 73-83 (1978), A. M. Dean, D. C. Steiner and E. E. Wang.
13. "Shock Tube Studies of Formaldehyde Pyrolysis", Seventeenth Symposium (International) on Combustion, Combustion Institute, Pittsburgh, PA (1979), 577-586, A. M. Dean, B. L. Craig, R. L. Johnson, M. C. Schultz and E. E. Wang.
14. "Shock Tube Studies of Formaldehyde Oxidation", Combust. Flame, 37, 41-62, (1980), A. M. Dean, R. L. Johnson and D. C. Steiner.
15. "Shock Tube Studies of the N2O/CH4/CO/Ar and N2O/C2H6/CO/Ar Systems", Combust. Flame, 37, 109-123 (1980), A. M. Dean and R. L. Johnson.
16. "Laser Absorption Measurements on OH, NH and NH2 in NH3/O2 Flames: Determination of an Oscillator Strength for NH2", J. Chem. Phys., 76, 5334-5340 (1982), M. S. Chou, A. M. Dean and D. Stern.
17. "Kinetics and Mechanism of NH3 Oxidation", Nineteenth Symposium (International) on Combustion, The Combustion Institute, Pittsburgh, PA, (1983), 97-105, A. M. Dean, J. E. Hardy and R. K. Lyon.
18. "Laser Induced Fluorescence and Absorption Measurements of NO in NH3/O2 and CH4/Air Flames", J. Chem. Phys., 78, 5962-5970 (1983), M. S. Chou, A. M. Dean and D. Stern.
19. "Nitrogen Chemistry in Flames: Observation and Detailed Kinetic Modeling", in The Chemistry of Combustion Processes, ACS Symposium Series, 249, 71-86 (1984), A. M. Dean, M. S. Chou and D. Stern.
20. "Kinetics of Rich Ammonia Flames", Int. J. Chem. Kinet., 16, 633-653, (1984), A. M. Dean, M. S. Chou and D. Stern.
21. "Excimer Laser Perturbation of Methane Flames: High Temperature Reactions of OH and CH", Int. J. Chem. Kinet., 17, 1103-1118 (1985), M. S. Chou and A. M. Dean.
22. "Predictions of Pressure and Temperature Effects Upon Radical Addition and Recombination Reactions", J. Phys. Chem., 89, 4600-4608, (1985), A. M. Dean.
23. "Predictions of Rate Constants for Combustion and Pyrolysis Reactions by Bimolecular QRRK", AIChE Journal, 32, 1971-1979 (1986), P. R. Westmoreland, J. B. Howard, J. P. Longwell and A. M. Dean.
24. "Bimolecular QRRK Analysis of Methyl Radical Reactions", Int. J. Chem. Kinet. 19, 207-228 (1987), A. M. Dean and P. R. Westmoreland.
25. "Energized Complex QRRK Analysis of Reactions of NH2 with HO2, O2, and O Atoms", J. Phys. Chem., 93, 1058-1065 (1989), J. W. Bozzelli and A. M. Dean.
26. "Forming Benzene in Flames by Chemically Activated Isomerization", J. Phys. Chem., 93, 8171-8180 (1989), P. R. Westmoreland, A. M. Dean, J. B. Howard, and J. P. Longwell.
27. "Detailed Kinetic Modeling of Autocatalysis in Methane Pyrolysis", J. Phys. Chem., 94, 1432-1439 (1990), A. M. Dean.
28. "Kinetic Study on the Thermal Decomposition of Chlorobenzene in Hydrogen and Helium Atmospheres", J. Phys. Chem., 94, 2493-2504 (1990), E. R. Ritter, J. W. Bozzelli and A. M. Dean.
29. "Chemical Activation Analysis of the Reaction of C2H5 with O2", J. Phys. Chem., 94, 3313-3317 (1990), J. W. Bozzelli and A. M. Dean.
30. “CHEMACT: A Computer Code to Estimate Rate Constants for Chemically-Activated Reactions”, Combust. Sci. and Tech., 80, 63-85 (1991), A. M. Dean, J. W. Bozzelli, and E. R. Ritter.
31. “Reactions of CH2 and CH with N2 and CH with NO”, Proceedings of the 6th Toyota Conference on Turbulence and Molecular Processes in Combustion, T. Takeno, Editor, Elsevier (Japan) (1993), 101-116, J. W. Bozzelli, M. H. U. Karim, and A. M. Dean.
32. "Hydrocarbon Radical Reactions with O2: Comparison of Allyl, Formyl, and Vinyl to Ethyl", J. Phys. Chem., 97, 4427-4441 (1993), J. W. Bozzelli and A. M. Dean.
33. “The Numerical Solution of Some Kinetics Models with VODE and CHEMKIN II”, Computers Chem., 17, 297-302 (1993), G. D. Byrne and A. M. Dean.
34. “Analysis of the Reactions H + N2O and NH + NO: Pathways and Rate Constants Over a Wide Range of Temperature and Pressure”, Twenty-fifth Symposium (International) on Combustion, Combustion Institute, Pittsburgh, (1994), 965-974, J. W. Bozzelli, A. Y. Chang and A. M. Dean.
35. “Radical Chemistry in Methane Oxidative Coupling—Tracing of Ethylene Secondary Reactions with Computer Models and Isotopes”, J. Phys. Chem., 98, 13357-13372 (1994), C. A. Mims, R. Mauti, A. M. Dean and K. D. Rose.
36. “Hydrogen Atom Bond Increments for Calculation of Thermodynamic Properties of Hydrocarbon Radical Species” J. Phys. Chem., 99, 14514-14527 (1995) T. H. Lay, J. W. Bozzelli, A. M. Dean, and E. R. Ritter.
37. “O + NNH—A Possible New Route for NOx Formation in Flames” Int. J. Chem. Kinet., 27, 1097-1109 (1995), J. W. Bozzelli and A. M. Dean.
38. “Molecular Density of States from Estimated Vapor Phase Heat Capacities”, Int. J. Chem. Kinet., 29, 161-170 (1997). J. W. Bozzelli, A. Y. Chang and A. M. Dean.
39. “Chebyshev Expansions and Sensitivity Analysis for Approximating the Pressure and Temperature-Dependent Behavior of Chemically-Activated Reactions”, Rev. Chem. Engr., 13, 1-67 (1997) P. K. Venkatesh, A. M. Dean, M. H. Cohen and R. W. Carr.
40. “Parameterization of Pressure- and Temperature Dependent Reactions in Multiple Well Reactions”, J. AIChE , 43, 1331-1340 (1997), P. K. Venkatesh, A. Y. Chang, A. M. Dean, M. H. Cohen and R. W. Carr.
41. “A Bayesian Method for Global Optimization”, Phys. Rev. E, 55, 6219-6232 (1997), P. K. Venkatesh, M. H. Cohen, R. W. Carr and A. M. Dean.
42. “Rate-Based Construction of Kinetic Models for Complex Systems”, J. Phys. Chem. A.. 101, 3731-3740 (1997), R. G. Susnow, A. M. Dean, W. H. Green, P. Peczak, and L. J. Broadbelt.
43. “Master Equation Analysis of Intramolecular Energy Transfer in Multiple-Well, Multiple-Channel Unimolecular Reactions”, J. Chem. Phys., 107, 8904-16 (1997), P. K. Venkatesh, A. M. Dean, M. H. Cohen, and R. W. Carr.
44. “Effect of Hydrocarbon Molecular Structure on Diesel Exhaust Emissions Part 2: Effect of Branched and Ring Structures of Paraffins on Benzene and Soot Formation”, SAE 982495, International Fuels and Lubricants Meeting, San Francisco, CA (1998), Y. Takatori, Y. Mandokoro, K. Akihama, K. Nakakita, L. I. Yeh, and A. M. Dean.
45. “Microcanonical Transition State Theory Rate Coefficients from Thermal Rate Constants via Inverse Laplace Transformation”, J. Phys. Chem. A 102, 8104-8115 (1998), P. K. Venkatesh, R. W. Carr, M. H. Cohen, and A. M. Dean.
46. “Master Equation Analysis of Intramolecular Energy Transfer in Multiple-Well, Multiple-Channel Unimolecular Reactions. II. Numerical Methods and Application to the Mechanism of the C2H5 + O2 Reaction” J. Chem. Phys., 111, 8313-29 (1999), P. K. Venkatesh, A. M. Dean, M. H. Cohen, and R. W. Carr.
47. “Hydrogen Abstraction Rates via Density Functional Theory”, Chem. Phys. Lett., 312, 262-268, (1999), R. G. Susnow, W. H. Green, and A. M. Dean
48. “Combustion Chemistry of Nitrogen” in Gas-Phase Combustion Chemistry, W. C. Gardiner, Jr., Editor, 125-341 (2000), Springer, A. M. Dean and J. W. Bozzelli.
49. “A Numerical Study of the Laminar Flame Speed of Stratified Methane/Air Flames”, Proc. Combust. Inst. 28, 1925-1932 (2000), A. Pires da Cruz, A. M. Dean, and J. M. Grenda
50. “Kinetic Analysis of Complex Chemical Activation and Unimolecular Dissociation Reactions using QRRK Theory and the Modified Strong Collision Approximation” Zeit. Phys Chem, 214, 1533-1568 (2000), A. Y. Chang, J. W. Bozzelli, and A. M. Dean .
51. “Development and Application of Detailed Kinetic Mechanisms for Free Radical Systems” Proceedings of the First International Conference on the Foundations of Molecular Modeling and Simulation (FOMMS), AIChE Symposium Series, 97, 84-95 (2001), A. M. Dean.
52. "Mechanism of the Smokeless Rich Diesel Combustion by Reducing Temperature" SAE 2001 World Congress (2001-01-0655), K. Akihama, Y. Takatori, K. Inagaki, S. Sasaki, and A. M. Dean.
53. “Variational Optimization by the Solution of a Series of Hamilton-Jacobi Equations”, Physica D, 154, 15-25 (2001) P. K. Venkatesh, L. R. Petzold, R. W. Carr, M. H. Cohen, and A. M. Dean.
54. “Rate-Based Screening of Pressure-Dependent Reaction Networks”, Computer Physics Communications 138, 237-249 (2001) D. M. Matheu, T. A. Lada, W. H. Green, A. M. Dean, and J. M. Grenda.
55. “Computer Construction of Detailed Chemical Kinetic Models for Gas-Phase Reactors”, Ind. Eng. Chem. Res. 40, 5362-5370 (2001) W. H. Green, P. I. Barton, B. Bhattacharjee, D. M. Matheu, D. A. Schwer, J. Song, R. Sumathi, H.-H. Carstensen, A. M. Dean, and J. M. Grenda.
56. “Detailed Kinetics and Thermochemistry of C2H5 + O2: Reaction Kinetics of the Chemically-Activated and Stabilized CH3CH2OO• Adduct”, J. Phys. Chem. A. 106, 7276-7293 (2002) C. Sheng, J. W. Bozzelli, A. M. Dean, and A. Y. Chang.
57. “The Formation of Ultra-Thin Silicon Oxide Films Using H2-N2O Mixtures”, Proc. Comb. Inst. 29, 1055-1062 (2002) R. J. Kee, W. Yang, N. Sullivan, A. M. Dean, A. Zojali, M. Hall, M. Williams.
58. “Application of Computational Kinetic Mechanism Generation to Model the Autocatalytic Pyrolysis of Methane”, Ind. Eng. Chem. Res. 42, 1000-1010 (2003) J. M. Grenda, I. P. Androulakis, A. M. Dean, and W. H. Green, Jr.
59. “Homogeneous Kinetics and Equilibrium Predictions Of Coking Propensity in the Anode Channels of Direct Oxidation Fuel Cells Using Dry Natural Gas”, J. Power Sources, 123, 182-189 (2003), K. M. Walters, A. M. Dean, H. Zhu, and R. J. Kee.
60. “Mechanism Generation with Integrated Pressure-Dependence: A New Model for Methane Pyrolysis”, J. Phys. Chem. A 107, 8552-8565 (2003), David M. Matheu, Anthony M. Dean, Jeffrey M. Grenda, William H. Green, Jr.
61. “The Importance of Gas Phase Kinetics Within the Anode Channel of a Solid-oxide Fuel Cell”, J. Phys. Chem A. 108, 3772-3783 (2004), Chad Y. Sheng and Anthony M. Dean
62. “Rate constants for the abstraction reactions RO2 + C2H6 ; R=H,CH3, and C2H5”, Proceedings of the Combustion Institute, 30, 995-1003 (2005), H.-H. Carstensen and A.M. Dean
63. “Detailed Kinetic Modeling of C2H5 + O2”, J. Phys. Chem A., 109, 2264-2281 (2005), H.-H. Carstensen, C. K. Naik, and A.M. Dean
64. “The Influence of Heterogeneous Chemistry and Electrochemistry on Gas-Phase Molecular Weight Growth and Deposit Formation” Solid Oxide Fuel Cells IX, 679-688, (2005), G. K. Gupta, A. M. Dean, E. S. Hecht, H. Zhu, R. J. Kee.
65. “Methane reforming kinetics within a Ni-YSZ SOFC anode”, Applied Catalysis A, 295, 40-51 (2005), E. S. Hecht, G. K. Gupta, H. Zhu, A. M. Dean, R. J. Kee, L. Maier, O. Deutschmann.
66. “Gas-Phase Reactions of Methane and Natural Gas with Air and Steam in the Non-Catalytic Regions of a Solid-Oxide Fuel Cell”, J. Power Sources 156, 434-447 (2006), G. K. Gupta, E. S. Hecht, H. Zhu, A. M. Dean, R. J. Kee.
67. “Detailed Kinetic Modeling of Ethane Oxidation”, Comb. Flame 145, 16-37 (2006), C. K. Naik and A. M. Dean.
68. “Comparison of Conversion and Deposit Formation of Ethanol and Butane under SOFC Conditions” J. Power Sources 158, 497–503 (2006), G. K. Gupta, A. M. Dean, K.Ahn, R. J. Gorte.
69. “Performance Predictions of a Tubular SOFC Operating on a Partially Reformed JP-8 Surrogate”, J. Power Sources 162, 553-562 (2006), G. K. Gupta, J. R. Marda, A. M. Dean, A. M. Colclasure,  H. Zhu, R. J. Kee.
70. “Rate Constants for the H Abstraction from Alkanes (R-H) by R’O2• Radicals: A Systematic Study on the Impact of R and R’ ” Proceedings of the Combustion Institute, 31, 149-157 (2007), H.-H. Carstensen, A. M. Dean, and O. Deutschmann.
71. “Application of Model Fuels to Engine Simulation” JSAE 20077229 SAE 2007-01-1843, E. Meeks, J. M. Deur, D. Hodgson, S. F. Miller, M. V. Petrova, K. V. Puduppakkam, C. Wang, C. K. Westbrook, A. M. Dean, W. H. Green, M. Koshi,  U. Maas
72. “The Kinetics of Pressure-Dependent Reactions” in Comprehensive Chemical Kinetics, 42, 105–187 (2007), Hans-Heinrich Carstensen and Anthony M. Dean
73. “Hydrocarbon Fuel Effects in SOFC Operation: An Experimental and Modeling Study of n-hexane Pyrolysis” Katie L. Randolph and Anthony M. Dean, Phys. Chem. Chem. Phys., 9, 4245 – 4258  (2007).
74. “Hydrocarbon fuels in solid oxide fuel cells: In-situ Raman studies of graphite formation and oxidation” Michael B. Pomfret, Jonathan Marda, Gregory S. Jackson, Bryan W. Eichhorn, Anthony M. Dean and Robert A. Walker, J. Phys. Chem.  C, 112,  5232-5240 (2008).
75. “Modeling High Pressure Ethane Oxidation and Pyrolysis” Chitralkumar V. Naik and Anthony M. Dean, Proceedings of the Combustion Institute, 32, (2008) (in press).
76. “Rate Constant Rules for the Automated Generation of Gas-Phase Reaction Mechanisms” Hans-Heinrich Carstensen and Anthony M. Dean, J. Phys. Chem. A (submitted).

Patents  

1. "Process for Reducing NO Emissions" 4,423,017, December 27, 1983 (A. M. Dean).
2. "Non-Catalytic Method for Reducing the Concentration of NO in Combustion Effluents by Injection of Ammonia at Temperatures greater than about 1300K"  4,507,269, March 26, 1985 (A. M. Dean, A. J. DeGregoria, J. E. Hardy, B. E. Hurst, and R. K. Lyon).
3. "Non-Catalytic Method for Reducing the Concentration of NO in Combustion Effluents by Injection of Ammonia at Temperatures greater than about 1300K" 4,624,840, November 26, 1986 (A. M. Dean, A. J. DeGregoria, J. E. Hardy, B. E. Hurst, and R. K. Lyon), (Continuation—in part of Patent No. 4,507,269).
4. "Non-Catalytic Method for Reducing the Concentration of NO in Combustion Effluents by Injection of Ammonia at Temperatures from about 975K to 1300K" 4,636,370, January 13, 1987 (A. M. Dean, A. J. DeGregoria, J. E. Hardy, B. E. Hurst, and R. K. Lyon).
5. "Non-Catalytic Method for Reducing the NO Emissions of Gas Turbines" 4,682,468, July 28, 1987, (A. M. Dean, A. J. DeGregoria, J. E. Hardy, and R. K. Lyon).
6.“Rapid Thermal Pyrolysis of Gaseous Feeds Containing Hydrocarbon Molecules Mixed with an Inert Working Gas” 5,162,599, November 10, 1992 (M. G. Matturro, H. W. Deckman, F. Hershkowitz, and A. M. Dean).
7. “Direct Hydroformulation of Multi-component Synthesis Gas Containing Carbon Monoxide, Hydrogen, Ethylene, and Acetylene” 5,600,017, February 4, 1997 (G. Kiss, M. G. Matturro, H. W. Deckman, I. T. Horvath, A. M. Dean, F. Hershkowitz, and R. A. Cook).
8. “Direct Hydroformulation of Multi-component Synthesis Gas Containing Carbon Monoxide, Hydrogen, Ethylene, and Acetylene” 5,675,401 October 7, 1997 (G. Kiss, F. Hershkowitz, H. W. Deckman, M. G. Matturro, I. T. Horvath, A. M. Dean, and R. A. Cook).
9. “DeNOx Reductant Generation in a Compression-Ignition Engine by Hydrocarbon Injection During the Expansion Stroke” 6,029,623 Feb. 29, 2000, W. Weissman, F. Hershkowitz, A. M. Dean, and H. S. Pink.
10. “NO to NO2 Conversion Control in a Compression Injection Engine by Hydrocarbon Injection During the Expansion Stroke” 5,947,080 September. 7, 1999 (W. Weissman, A. M. Dean, and H. S. Pink).
11. “Fuel Formulations to Extend the Lean Limit” 6,206,940 March 27, 2001 (W. Weissman, A. M. Dean, J. E. Johnston, K. Akihama, S. Iguchi, and S. Kubo).