Intermediates in the Autoxidation of Nitrogen Monoxide

Autor: Willem H. Koppenol, Benedikt Galliker, Reinhard Kissner, Thomas Nauser
Rok vydání: 2009
Předmět:
Zdroj: Chemistry - A European Journal. 15:6161-6168
ISSN: 1521-3765
0947-6539
DOI: 10.1002/chem.200801819
Popis: ONOO. is an important intermediate in the autoxidation of nitrogen monoxide by dioxygen. A formerly unknown red isomer of N2O4, ONOONO (see figure), formed in 2-methylbutane at 113 K from nitrogen monoxide and dioxygen, is converted to O2NNO2 upon warming. We have identified two intermediates in the autoxidation of NO.: ONOO., which was detected by EPR spectroscopy at 295 K and atmospheric pressure in the gas phase, and ONOONO, a red substance produced at 113 K in 2-methylbutane. The red compound is diamagnetic and absorbs maximally at 500 nm. The ONOONO intermediate is unstable above the melting point of 2-methylbutane and rapidly converts to O2NNO2. From the semiquantitative determination of mole fractions present in the gas phase by EPR spectroscopy, we estimated the rate constants for the steps that lead to ONOO. and ONOONO, from the known overall rate constant of the autoxidation reaction, by assuming that a quasi-stationary mechanism applies. The rate constant for the rate-determining formation of ONOO. is about 3.1×10−18 cm3 molecule−1 s−1 (or 80 s−1 in mole fractions), the dissociation rate constant of ONOO. is about 6.5×103 s−1, and ONOONO is formed with a rate constant of k=7.7×10−14 cm3 molecule−1 s−1 (1.9×106 s−1 in mole fractions). From these constants, we estimate that the equilibrium constant for the formation of ONOO. from NO. and O2 (K) is 4.8×10−22 cm3 molecule−1 (1.2×10−2), and, therefore, ΔG=+11.0 kJ mol−1. In water, the Gibbs energy change is close to zero. The presence of ONOO. at steady-state concentrations under dioxygen excess may be important not only for reactions in the atmosphere, but especially for reactions in aerosols and biological environments, because the rate constant for formation in solution is higher than that in the gas phase, and, therefore, the half-life of ONOO. is longer.
Databáze: OpenAIRE
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