[1] Dainton F.S. Chain reactions: an introduction. 2nd ed. London: Methuen; 1966.
[2] Lewis B, von Elbe G. Combustion, flames and explosions of gases. 2nd ed. New York: Academic Press; 1961 Part 1.
[3] Gardiner Jr. W.C, Olson D.B. Annu Rev Phys Chem. 1980;31:377.
[4] Westbrook C.K, Dryer F.L. Prog Energy Combust Sci. 1984;10:1.
[5] Bradley J.N. Flame and combustion phenomena. London: Methuen; 1969 Chap. 2.
[6] Baulch D.L, Drysdale D.D, et al. Evaluated kinetic data for high temperature reactions. Vol. 1–3. London: Butterworth; 1973.
[7] Westbrook C.K. Combust Sci Technol. 1982;29:67.
[8] Michael J.V, Sutherland J.W, Harding L.B, Wagner A.F. Proc Combust Inst. 2000;28:1471.
[9] Yetter R.A, Dryer F.L, Golden D.M. In: Hussaini M.Y, Kumar A, Voigt R.G, eds. Major research topics in combustion. New York: Springer-Verlag; 1992:309.
[10] Brokaw R.S. Proc Combust Instit. 1967;11:1063.
[11] Gordon A.S, Knipe R. J Phys Chem. 1955;S9:1160.
[12] Dryer, F. L., Naegeli, D. W., and Glassman, I., Combust Flame 17, 270 (1971).
[13] Smith I.W.M, Zellner R. JCS Faraday Trans. 1973;269:1617.
[14] Larson C.W, Stewart P, Golden D.M. Int J Chem Kinet. 1988;20:27.
[15] Dryer F.L, Glassman I. Prog Astronaut Aeronaut. 1979;62:55.
[16] Semenov N.N. Some problems in chemical kinetics and reactivity. Princeton (NJ): Princeton Univ. Press; 1958 Chapter 7.
[17] Minkoff G.J, Tipper C.F.H. Chemistry of combustion reactions. London: Butterworth; 1962.
[18] Williams F.W, Sheinson R.S. Combust Sci Technol. 1973;7:85.
[19] Bozzelli J.W, Dean A.M. J Phys Chem. 1990;94:3313.
[20] Wagner A.F, Sleagle I.R, Sarzynski D, Gutman D. J Phys Chem. 1990;94:1853.
[21] Benson S.W. Prog Energy Combust Sci. 1981;7:125.
[22] Villano S.M, Huynh I.K, Carstensen H.-H, Dean A.M. J Phys Chem A. 2011;115:13425–13442.
[23] Villano S.M, Huynh I.K, Carstensen H.-H, Dean A.M. J Phys Chem A. 2012;116:5068–5089.
[24] Simmie J.M, Black G, Curran H.J, Hinde J.P. J Phys Chem A. 2008;112:5010–5016.
[25] Knyazev V.D, Slagle I.R. J Phys Chem A. 1998;102:1770–1778.
[26] Lay T.H, Bozzelli J.W. J Phys Chem A. 1997;101:9505–9510.
[27] Goldsmith C.F, Green W.H, Klippenstein S.J. J Phys Chem A. 2012;116:3325–3346.
[28] Zádor J, Taatjes C.A, Fernandes R.X. Prog Energy Combust Sci. 2011;37:371–421.
[29] Battin-Leclerc F. Prog Energy Combust Sci. 2008;34:440–498.
[30] Benson S.W. NBS Spec Publ (US). 1972;16(359):101.
[31] Baldwin A.C, Golden D.M. Chem Phys Lett. 1978;55:350.
[32] Dagaut P, Cathonnet M. J Chem Phys. 1990;87:221.
[33] Frenklach M, Wang H, Rabinovitz M.J. Prog Energy Combust Sci. 1992;18:47.
[34] Hunter J.B, Wang H, Litzinger T.A, Frenklach M. Combust Flame. 1994;97:201.
[35] GRI-Mech 2.11, available through the World Wide Web, http://combustion.berkeley.edu/Combustion_Laboratory/gri-mech/.
[36] Brabbs T.A, Brokaw R.S. Proc Combust Instit. 1975;15:892.
[37] Yu C.-L, Wang C, Frenklach M. J Phys Chem. 1995;99:1437.
[38] Warnatz J. Proc Combust Instit. 1981;18:369.
[39] Warnatz J. Prog Astronaut Aeronaut. 1981;76:501.
[40] Dagaut P, Cathonnet M, Boettner J.C. Int J Chem Kinet. 1991;23:437.
[41] Dagaut P, Cathonnet M, Boettner J.C, Guillard F. Combust Sci Technol. 1986;56:232.
[42] Cathonnet M. Combust Sci Technol. 1994;98:265.
[43] Fristrom R.M, Westenberg A.A. Flame structure. New York: McGraw-Hill; 1965 Chapter 14.
[44] Dryer F.L, Brezinsky K. Combust Sci Technol. 1986;45:199.
[45] Warnatz J. In: Gardiner Jr.W.C, ed. Combustion chemistry. New York: Springer-Verlag; 1984 Chapter 5.
[46] Dryer F.L, Brezinsky K. West. States Sect Combust Inst. 1984:84–88.
[47] Brezinsky K, Litzinger T.A, Glassman I. Int J Chem Kinet. 1984;16:1053.
[48] Golden D.M, Larson C.W. Proc Combust Inst. 1985;20:595.
[49] Hunziker H.E, Kneppe H, Wendt H.R. J Photochem. 1981;17:377.
[50] Peters I, Mahnen G. In: Weinberg F.J, ed. Combustion institute european symposium. New York: Academic Press; 1973:53.
[51] Blumenberg B, Hoyermann K, Sievert R. Proc Combust Inst. 1977;16:841.
[52] Tully F.P. Phys Chem Lett. 1983;96(148) 19, 181(1982).
[53] Miller J.A, Mitchell R.E, Smooke M.D, Kee R. J Proc Combus Inst. 1982;19:181.
[54] Kiefer J.H, Kopselis S.A, Al-Alami M.Z, Budach K.A. Combust Flame. 1983;51:79.
[55] Grebe J, Homann R.H. Ber Busenges. Phys Chem. 1982;86:587.
[56] Devriendt K, Peeters J. J Phys Chem A. 1997;101:2546.
[57] Marques C.S.T, Benvenutti L.H, Betran C.A. J Braz Chem Soc. 2006;17:302.
[58] Glassman I. Mech. aerosp. eng. rep., No. 1450. Princeton (NJ): Princeton Univ; 1979.
[59] Cole J.A, Thesis M.S. Department of chemical engineering. Cambridge (MA): MIT; 1982.
[60] Frenklach M, Clary D.W, Gardiner Jr. W.C, Stein S.E. Proc Combust Inst. 1985;20:887.
[61] Brezinsky K, Burke E.J, Glassman I. Proc Combust Inst. 1985;20:613.
[62] Norton T.S, Dryer F.L. Combust Sci Technol. 1989;63:107.
[63] Held T.J, Dryer F.L. Proc Combust Inst. 1994;25:901.
[64] Marinov N.M. Int J Chem Kinet. 1999;31:183–220.
[65] Saxena P, Williams F.A. Proc Combust Inst. 2007;31:1149–1156.
[66] Leplat N, Seydi A, Vandooren J. Combust Sci Tchnol. 2008;180:519–532.
[67] Aronowitz D, Santoro R.J, Dryer F.L, Glassman I. Proc Combust Inst. 1978;16:663.
[68] Bowman C.T. Combust Flame. 1975;25:343.
[69] Westbrook C.K, Dryer F.L. Combust Sci Technol. 1979;20:125.
[70] Li J, Zhao Z, Kazakov A, Chaos M, Dryer F.L, Scire Jr.J.J. Int J Chem Kinet. 2007;39:109.
[71] Vandooren J, van Tiggelen P.J. Proc Combust Inst. 1981;18:473.
[72] Aders W.K. In: Weinberg F.J, ed. Combustion institute european symposium. New York: Academic Press; 1973:79.
[73] Colket III. M.B, Naegeli D.W, Glassman I. Proc Combust Inst. 1977;16:1023.
[74] Tsang W. J Chem Phys. 1964;40:1498.
[75] Li Y, Wei L, Tian Z, Yang B, Wang J, Zhang T, et al. Combust Flame. 2008;152:336–359.
[76] Kasper T, Oβwald P, Struckmeier U, Kohse-Höinghaus K, Taatjes C.A, Wang J, et al. Combust Flame. 2009;156:1181–1201.
[77] Kasper T, Struckmeier U, Oβwald P, Kohse-Höinghaus K. Proc Combust Inst. 2009;32:1285–1292.
[78] Frassoldati A, Cuoci A, Faravelli T, Niemann U, Ranzi E, Seiser R, et al. Combust Flame. 2010;157:2–16.
[79] McEnally C.S, Pfefferle L.D. Proc Combust Inst. 2005;30:1363–1370.
[80] Yang B, Oβwald P, Li Y, Wang J, Wei L, Tian Z, et al. Combust Flame. 2007;148:198–209.
[81] Moss J.T, Berkowitz A.M, Oehlschlaeger M.A, Biet J, Warth V, Glaude P.A, et al. J Phys Chem A. 2008;112:10843–10855.
[82] Dagaut P, Sarathy S.M, Thompson M.J. Proc Combust Inst. 2009;32:229–237.
[83] Brezinsky K. Prog Energy Combust Sci. 1986;12:1.
[84] Norris R.G.W, Taylor G.W. Proc R Soc Lond Ser A. 1936;153:448.
[85] Barnard J.A, lbberson V.J. Combust Flame. 1965;9(81):149.
[86] Glassman I. Mech Aerosp Eng Rep. 1979;1446 Princeton Univ.,Princeton (NJ).
[87] Santoro R.J, Glassman I. Combust Sci Technol. 1979;19:161.
[88] Benson S.W. J Am Chem Soc. 1965;87:972.
[89] Lovell A.B, Brezinsky K, Glassman I. Proc Combust Inst. 1985;22:1065.
[90] Emdee J.L, Brezinsky K, Glassman I. J Phys Chem. 1992;96:2151.
[91] Frank P, Herzler J, Just T, Wahl C. Proc Combust Inst. 1994;25:833.
[92] Bittner J.D, Howard J.B. Proc Combust Inst. 1977;19:221.
[93] Lin C.Y, Lin M.C. J Phys Chem. 1986;90:1125.
[94] Litzinger T.A, Brezinsky K, Glassman I. Combust Flame. 1986;63:251.
[95] Davis S.C. Personal communication. Princeton (NJ): Princeton University; 1996.
[96] Lindstedt R.P, Skevis G. Combust Flame. 1994;99:551.
[97] Zhang H.-Y, McKinnon J.T. Combust Sci Technol. 1995;107:261.
[98] Asthoiz D.C, Durant J, Troe J. Proc Combust Inst. 1981;18:885.
[99] Litzinger T.A, Brezinsky K, Glassman I. J Phys Chem. 1986;90:508.
[100] Emdee J.L, Brezinsky K, Glassman I. Proc Combust Inst. 1990;23:77.
[101] Emdee J.L, Brezinsky K, Glassman I. J Phys Chem. 1991;95:1616.
[102] Zeppieri S. High temperature experimental and computational studies of the pyrolysis and oxidation of endothermic fuels [Ph.D. thesis]. Department of Mechanical and Aerospace Engineering, Princeton University, Princeton, NJ; 1999.
[103] Stewart J. Supercritical pyrolysis of the endothermic fuels methylcyclohexane, Decalin [Ph.D. thesis]. Department of Mechanical and Aerospace Engineering, Princeton University, Princeton, NJ; 1999.
[104] Wu B.C, Klein M.T, Sandler S.I. Ind Eng Chem Res. 1991;30:822.
[105] Ondruschka A, Zimmermann G, Remmler M, Sedlackova M, Pola A. J Anal Appl Pyrol. 1990;18:19.
[106] Westbrook C.K. Annu. Rev Phys Chem. 2013;64:201–219.
[107] Lai J.Y.W, Lin K.C, Violi A. Prog Energy Combust Sci. 2011;37:1–14.
[108] Kohse-Höinghaus K, Oβwald P, Cool T.A, Kasper T, Hansen N, Qi F, et al. Angew Chem Int Ed. 2010;49:3572–3597.
[109] Coniglio L, Bennadji H, Glaude P.A, Herbinet O, Billaud F. Prog Energy Combust Sci. 2013;39:340–382.
[110] Dooley S, Curran H.J, Simmie J.M. Combust Flame. 2008;153:2–32.
[111] Westbrook C.K, Pitz W.J, Sarathy S.M, Mehl M. Proc Combust Inst. 2013;34:3049–3056.
[112] Herbinet O, Pitz W.J, Westbrook C.K. Combust Flame. 2008;154:507–528.
[113] Westbrook C.K, Naik C.V, Herbinet O, Pitz W.J, Mehl M, Sarathy S.M, et al. Combust Flame. 2011;158:742–755.
[114] Osmont A, Catoire L, Gökalp I. Int J Chem Kinet. 2007;39:481.
[115] Osmont A, Yahyaoui M, Catoire L, Gökalp I, Swihart M.T. Combust Flame. 2008;155:334–342.
[116] Hayes C.J, Burgess Jr.D.R. Proc Combust Inst. 2009;32:263–270.