Direct Measurements of Unimolecular and Bimolecular Reaction Kinetics of the Criegee Intermediate (CH 3 ) 2 COO

Rabi Chhantyal-pun, Oliver Welz, John David Savee, Arkke J. Eskola, Edmond P. F. Lee, Lucy Blacker, Henry R. Hill, Matilda Ashcroft, M Anwar H H. Khan, Guy C. Lloyd-jones, Louise A Evans, Brandon Rotavera, Haifeng Huang, David L. Osborn, Daniel K.w. Mok, John M. Dyke, Dudley E. Shallcross, Carl John Percival, Andrew J. Orr-ewing, Craig Allen Taatjes

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Abstract / Description of output

The Criegee intermediate acetone oxide, (CH3)2COO, is formed by laser photolysis of 2,2-diiodopropane in the presence of O2 and characterized by synchrotron photoionization mass spectrometry and by cavity ringdown ultraviolet absorption spectroscopy. The rate coefficient of the reaction of the Criegee intermediate with SO2 was measured using photoionization mass spectrometry and pseudo-first order methods to be (7.3 ± 0.5) × 10 11 cm3 s 1 at 298 K and 4 Torr and (1.5 ± 0.5) × 10 10 cm3 s 1 at 298 K and 10 Torr (He buffer). These values are similar to directly measured rate coefficients of anti-CH3CHOO with SO2, and in good agreement with recent UV absorption measurements. The measurement of this reaction at 293 K and slightly higher pressures (between 10 Torr and 100 Torr) in N2 from cavity ringdown decay of the ultraviolet absorption of (CH3)2COO yielded even larger rate coefficients, in the range (1.84  0.12) × 10-10 to (2.29 ± 0.08) × 10-10 cm3 s-1. Photoionization mass spectrometry measurements with deuterated acetone oxide at 4 Torr show an inverse deuterium kinetic isotope effect, kH/kD = (0.53 ± 0.06), for reactions with SO2, which may be consistent with recent suggestions that the formation of an association complex affects the rate coefficient. The reaction of (CD3)2COO with NO2 has a rate coefficient at 298 K and 4 Torr of (2.1 ± 0.5) × 10 12 cm3 s 1 (measured with photoionization mass spectrometry), again similar to the reaction of anti-CH3CHOO with NO2. Cavity ringdown measurements of the acetone oxide removal without added reagents display a combination of first- and second-order decay kinetics, which can be deconvolved to derive values for both the self-reaction of (CH3)2COO and its unimolecular thermal decay. The inferred unimolecular decay rate coefficient at 293 K, (305 ± 70) s 1, is similar to determinations from ozonolysis. The present measurements confirm the large rate coefficient for reaction of (CH3)2COO with SO2 and the small rate coefficient for its reaction with water. Product measurements of the reactions of (CH3)2COO with NO2 and with SO2 suggest that these reactions may facilitate isomerization to 2-hydroperoxypropene, possibly by subsequent reactions of association products.
Original languageEnglish
JournalThe Journal of Physical Chemistry A
Early online date18 Oct 2016
DOIs
Publication statusE-pub ahead of print - 18 Oct 2016

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