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Isoprene nitrates: Preparation, separation, identification, yields, and atmospheric chemistry

by A. L. Lockwood, P. B. Shepson, M. N. Fiddler, M. Alaghmand
Atmospheric Chemistry and Physics ()
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Isoprene is an important atmospheric volatile organic compound involved in ozone production and NOx (NO+NO2) sequestration and transport. Isoprene reaction with OH in the presence of NO can form either isoprene hy- droxy nitrates (isoprene nitrates) or convert NO to NO2 which can photolyze to form ozone. While it has been shown that isoprene nitrate production can represent an important sink for NOx in forest impacted environments, there is lit- tle experimental knowledge of the relative importance of the individual isoprene nitrate isomers, each of which has a dif- ferent fate and reactivity. In this work, we have identified the 8 individual isomers and determined their total and indi- vidual production yields. The overall yield of isoprene ni- trates at atmospheric pressure and 295K was found to be 0.070(+0.025/0.015). Three isomers, representing nitrates resulting from OH addition to a terminal carbon, represent 90% of the total IN yield. We also determined the ozone rate constants for three of the isomers, and have calculated their atmospheric lifetimes, which range from 12 h, mak- ing their oxidation products likely more important as atmo- spheric organic nitrates and sinks for nitrogen.

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