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From:Atmospheric Chemistry and Physics (Vol. 20, Issue 6) Peer-ReviewedThe 2-methyltetrols have been widely chosen as chemical tracers for isoprene-derived secondary organic aerosols. While they are often assumed to be relatively unreactive, a laboratory study reported that pure erythritol...
From:Atmospheric Chemistry and Physics (Vol. 21, Issue 3) Peer-ReviewedOrganic compounds residing near the surface of atmospheric aerosol particles are exposed to chemical reactions initiated by gas-phase oxidants, such as hydroxyl (OH) radicals. Aqueous droplets composed of inorganic salts...
From:Atmospheric Chemistry and Physics (Vol. 19, Issue 14) Peer-Reviewed
Atmospheric particles, consisting of inorganic salts, organic compounds and a varying amount of water, can continuously undergo heterogeneous oxidation initiated by gas-phase oxidants at the particle surface,...
From:Atmospheric Chemistry and Physics (Vol. 19, Issue 4) Peer-Reviewed
Acid-catalyzed multiphase chemistry of epoxydiols formed from isoprene oxidation yields the most abundant organosulfates (i.e., methyltetrol sulfates) detected in atmospheric fine aerosols in the boundary layer. This...
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