REFERENCES
- Atakan , B. , Jacobs , A. , Wahl , M. , Weller , R. , and Wolfrum , J. 1989 . Kinetic measurements and product branching ratio for the reaction amidogen + nitric oxide at 294–1027 K . Chem. Phys. Lett. , 155 , 609 .
- Baulch , D.L. , Cobos , C.J. , Cox , R.A. , Esser , C. , Frank , P. , Just , Th. , Kerr , J.A. , Pilling , M.J. , Troe , J. , Walker , R.W. , and Warnatz , J.J. 1992 . Phys. Chem. Ref. Data , 21 , 411 .
- Bedford , G. , and Thomas , J.H. 1972 . Reaction between ammonia and nitrogen dioxide . J. Chem. Soc. Faraday Trans. , 1 , 68, 2163 .
- Bulatov , V.P. , Ioffe , A.A. , Lozovsky , V.A. , and Sarkisov , O.M. 1989 . On the reaction of the amidogen radical with nitric oxide at 295–620 K . Chem. Phys. Lett. , 161 , 141 .
- Diau , E.W.G. , Lin , M.C. , He , Y. , and Melius , C.F. 1995 . Theoretical aspects of H/N/O-chemistry relevant to the thermal reduction of NO by H2 . Prog. in Energy and Combust. Sci. , 21 , 1 .
- Glarborg , P. , Dam-Johansen , K. , Miller , J.A. , Kee , R.J. , and Coltrin , M.E. 1994 . Modeling the thermal DeNOx process in flow reactors. Surface effects and nitrous oxide formation . Int. J. Chem. Kinet. , 26 , 421 .
- Glarborg , P. , Dam-Johansen , K. , and Miller , J.A. 1995 . The reaction of ammonia with nitrogen dioxide in a flow reactor: Implications for the NH2 + NO2 reaction . Int J. Chem. Kinet. , 27 , 1207 .
- Glarborg , P. , Kristensen , P.G. , Dam-Johansen , K. , and Miller , J.A. 1997 . Branching fraction of the NH2 + NO reaction between 1210 and 1370 K . J. Phys. Chem. A , 101 , 3741 .
- Halbgewachs , M.J. , Diau , E.W.G. , Mebel , A.M. , Lin , M.C. , and Melius , C.F. 1996 . Thermal reduction of NO by NH3: Kinetic modeling of the NH2 + NO product branching ratio . Proc. Comb. Instit. , 26 , 2109 .
- Kee , R.J. , Rupley , F.M. , and Miller , J.A. 1989 . CHEMKIN-II: A Fortran chemical kinetics package for the analysis of gas-phase chemical kinetics. Sandia National Laboratories Report No. SAND 89–8009.
- Lesclaux , R. , Khê , P.V. , Dezauzier , P. , and Soulignac , J.C. 1975 . Flash photolysis studies of the reaction of amido radicals with nitric oxide . Chem. Phys. Lett. , 35 , 493 .
- Lin , M.C. , He , Y. , and Melius , C.F. 1992 . Theoretical interpretation of the kinetics and mechanisms of the nitroxyl + nitroxyl and nitroxyl + nitric oxide reactions with a unified model . Int. J. Chem. Kinet. , 24 , 489 .
- Lindholm , N. , and Hershberger , J. 1997 . Product branching ratios of the NH2(X2B1) + NO2 reaction . J. Phys. Chem A. , 101 , 4991 .
- Lutz , A.E. , Kee , R.J. , and Miller , J.A. 1988 . SENKIN: A Fortran program for predicting homogeneous gas-phase chemical kinetics with sensitivity analysis. Sandia National Laboratories, Report No. SAND87–8248.
- Lyon , R.K. 1976 . The ammonia-nitric oxide-oxygen reaction . Int. J. Chem. Kinet. , 8 , 315 .
- Lyon , R.K. , and Cole , J.A. 1990 . A reexamination of the RapreNO x process . Combustion and Flame , 82 , 435 .
- Mebel , A.M. , Hsu , C.-C. , Lin , M.C. , and Morokuma , K. 1995 . An ab initio molecular orbital study of potential energy surface of the NH2 + NO2 reaction . J. Chem. Phys. , 103 , 5640 .
- Mebel , A.M. , Lin , M.C. , and Melius , C.F. 1998. Rate constant of the HONO + HONO → H2O + NO + NO2 reaction from ab initio MO and TST calculations. J. Phys. Chem A. , 102, 1803, 395.
- Mebel , A.M. , Moskaleva , L.V. , and Lin , M.C. 1999 . Ab initio MO calculations for the reactions of NH2 with H2, H2O, NH3 and CH4: Prediction of absolute rate constants and kinetic isotope effects . THEOCHEM. , 223 , 461 .
- Mertens , J.D. , Chang , A.Y. , Hanson , R.K. , and Bowman , C.T. 1991 . A shock tube study of the reactions of imidogen with nitric oxide, oxygen, and atomic oxygen . Int. J. Chem. Kinet. , 23 , 173 .
- Meunier , H. , Pagsberg , P. , and Sillesen , A. 1996 . Kinetics and branching ratios of the reactions NH2 + NO2 → N2O + H2O and NH2 + NO2 → H2NO + NO studied by pulse radiolysis combined with time-resolved infrared diode laser spectroscopy . Chem. Phys. Lett. , 261 , 277 – 282 .
- Park , J. , and Lin , M.C. 1996a . Direct determination of product branching for the NH2 + NO reaction at temperatures between 302 and 1060 K . J. Phys. Chem. , 100 , 3317 .
- Park , J. , and Lin , M.C. 1996b . Mass-spectrometric determination of product branching probabilities for the NH2 + NO2 reaction at temperatures between 300 and 990 K . Int. J. Chem. Kinet. , 28 , 879 .
- Park , J. , and Lin , M.C. 1997a . Laser-initiated NO reduction by NH3: Total rate constant and product branching ratio measurements for the NH2 + NO reaction . J. Phys. Chem. A , 101 , 5 .
- Park , J. , and Lin , M.C. 1997b . A mass-spectrometric study of the NH2 + NO2 reaction . J. Phys. Chem. A , 101 , 2643 .
- Park , J. , and Lin , M.C. 1998a . Recent research development in physical chemistry . Transworld Research Network , 2 , 965 .
- Park , J. , Chakraborty , D. , and Lin , M.C. 1998b . Thermal decomposition of gaseous ammonium dinitramide at low pressure: Kinetic modeling of product formation with ab initio MO/cVRRKM calculations . Proc. Comb. Inst. , 27 , 2351 .
- Park , J. , Giles , N.D. , Moore , J. , and Lin , M.C. 1998c . A comprehensive kinetic study of thermal reduction of NO2 by H2 . J. Phys. Chem. A , 102 , 10099 .
- Park , J. , and Lin , M.C. 1999 . Product Branching Ratios in the NH2 + NO Reaction: A Re-Evaluation . J. Phys. Chem. A , 103 ( 44 ), 8906 .
- Park , J. , and Lin , M.C. 2009 . Thermal decomposition of gaseous ammonium nitrate at low pressure: Kinetic modeling of product formation and heterogeneous decomposition of nitric acid . J. Phys. Chem. A , 113 ( 48 ), 13556 .
- Perry , R.A. , and Siebers , D.L. 1986 . Rapid reduction of nitrogen oxides in exhaust gas streams . Nature , 324 , 657 .
- Quandt , R. , and Hershberger , J. 1996 . Diode laser study of the product branching ratio of the NH2(X2B1) + NO2 reaction . J. Phys. Chem. , 100 , 9407 .
- Rosser , W.A. , and Wise , H. , Jr. 1956 . Gas-phase oxidation of ammonia by nitrogen dioxide . J. Chem. Phys. , 25 , 1078 .
- Stephens , J.W. , Morter , C.L. , Farhat , S.K. , Glass , G.P. , and Curl , R.F. 1993 . Branching ratio of the reaction amidogen + nitric oxide at elevated temperatures . J. Phys. Chem. , 97 , 8944 .
- Thaxton , A. , Grant , H.C.-C. , and Lin , M.C. 1997 . Rate constant for the NH3 + NO2 → NH2 + HONO reaction: Comparison of kinetically modeled and predicted results . Int. J. Chem. Kinet. , 29 , 245 .
- Tsang , W. , and Herron , J.T. 1991 . J. Phys. Chem. Ref. Data , 20 , 609 .
- Vandooren , J. , Bian , J. , and van Tiggelen , P.J. 1994 . Comparison of experimental and calculated structures of an ammonia-nitric oxide flame. Importance of the NH2 + NO reaction . Combust. Flame , 402 .
- Votsmeier , M. , Song , S. , Hanson , R.K. , and Bowman , C.T. 1999. A shock tube study of the product branching ratio for the reaction NH2 + NO using frequency-modulation detection of NH2 . J. Phys. Chem. A , 103(11), 1566.
- Wyatt , J.R. , DeCorpo , J.J. , McDowell , M.V. , and Saalfeld , F.E. 1974 . Simple method for adiabatically sampling reactive gaseous systems for mass spectrometric analysis . Rev Sci Instrum. , 45 , 916 .
- Wyatt , J.R. , DeCorpo , J.J. , McDowell , M.V. , and Saalfeld , F.E. 1975 . Sampling of flow systems at atmospheric pressure . Int J Mass Spectrum Ion Phys. , 16 , 33 .
- Xia , W.S. , and Lin , M.C. 2000 . Ab initio MO/statistical theory prediction of the OH + HONO reaction rate: Evidence for the negative temperature dependence . Phys. Chem. Comm. [Electronic Publication], 3 article no. 13.
- Zhu , R.S. , and Lin , M.C. 2003 . Towards reliable prediction of kinetics and mechanisms for elementary processes: Key combustion initiation reactions of ammonium perchlorate . Theoretical and Computational Chemistry , 13 (Energetic Materials, Part 2) , 373 – 443 .