TY - JOUR
T1 - Decomposition pathways of peroxynitrous acid
T2 - Gas-phase and solution energetics
AU - Dixon, David A.
AU - Feller, David
AU - Zhan, Chang Guo
AU - Francisco, Joseph S.
PY - 2002/4/4
Y1 - 2002/4/4
N2 - It was recently suggested that HOONO, which forms after protonation of the ONOO- anion under biological conditions, decomposes into HNO and (1Δg)O2. Subsequent workers argued that the mechanism for HOONO decomposition proceeds via homolytic bond fission, producing the radical pair OH and NO2, and another recent study argued that a cyclic form of the peroxynitrous acid results in the products H+ + O2(1Δg) + NO-. Calculations on the reaction pathway for the process showed that it required a high activation energy, and is thus implausible. High level ab initio molecular orbital theory including extrapolation to the complete basis set limit has been used to calculate the heats of formation of reactants and products for the homolytic bond fission pathways for decomposition of HOONO and the molecular pathway that yields HNO and 1O2 as well as the transition state for the latter process. These data are used to evaluate the probability of whether the decomposition of peroxynitrous acid can produce HNO and 1O2. Isomerization of HOONO to HONO2 is also discussed.
AB - It was recently suggested that HOONO, which forms after protonation of the ONOO- anion under biological conditions, decomposes into HNO and (1Δg)O2. Subsequent workers argued that the mechanism for HOONO decomposition proceeds via homolytic bond fission, producing the radical pair OH and NO2, and another recent study argued that a cyclic form of the peroxynitrous acid results in the products H+ + O2(1Δg) + NO-. Calculations on the reaction pathway for the process showed that it required a high activation energy, and is thus implausible. High level ab initio molecular orbital theory including extrapolation to the complete basis set limit has been used to calculate the heats of formation of reactants and products for the homolytic bond fission pathways for decomposition of HOONO and the molecular pathway that yields HNO and 1O2 as well as the transition state for the latter process. These data are used to evaluate the probability of whether the decomposition of peroxynitrous acid can produce HNO and 1O2. Isomerization of HOONO to HONO2 is also discussed.
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U2 - 10.1021/jp013783z
DO - 10.1021/jp013783z
M3 - Article
AN - SCOPUS:0037018528
SN - 1089-5639
VL - 106
SP - 3191
EP - 3196
JO - Journal of Physical Chemistry A
JF - Journal of Physical Chemistry A
IS - 13
ER -