Substantial organic impurities at the surface of synthetic ammonium sulfate particles

The effects of composition, size, and phase state on ultrafine seed particle growth by α-pinene ozonolysis were determined from diameter growth measurements after a fixed reaction time in a flow tube reactor. Modeling time-dependent particle growth under a given set of conditions allowed the reaction growth factor (GF) to be determined, which is defined as the fraction of α-pinene molecules that react to give a product that grows the particles. Growth factors were compared for initial seed particle diameters of 40, 60, and 80 nm that were composed of freshly formed α-pinene secondary organic aerosol (SOA), effloresced ammonium sulfate, and deliquesced ammonium sulfate. Overall, SOA seed particles gave the lowest growth factors. Effloresced ammonium sulfate particles gave somewhat higher growth factors and showed a slight dependence on relative humidity. Deliquesced ammonium sulfate particles gave the highest growth factors. Seed particle-size dependencies suggested that both surface-and volume-limited reactions may contribute to growth. Overall, the growth factors were found to vary by more than 4x across the reaction conditions studied. The results highlight the crucial role that seed particle characteristics play in determining particle growth rates in a size range relevant to formation of cloud condensation nuclei.

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Growth Rate Dependence of Secondary Organic Aerosol on Seed Particle Size, Composition, and Phase

Higgins

Taylor

Krasnomowitz

et al. 2022

ACS Earth Space Chem.

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Iodine Activation from Iodate Reduction in Aqueous Films via Photocatalyzed and Dark Reactions

Reza,

Iezzi,

Finkenzeller

et al. 2024

ACS Earth Space Chem.

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Iodine in the atmosphere destroys ozone and can nucleate particles by formation of iodic acid, HIO 3 . Recent field observations suggest iodate recycles from particles sustaining significant gas-phase IO radical concentrations (0.06 pptv) in aged stratospheric air, and in elevated dust plumes. However, laboratory evidence for iodine activation from aerosols is currently missing. Here, a series of coated-wall flow tube (CWFT) experiments test for iodine release from thin aqueous films containing iodate. Photocatalyzed reactions were studied using iron(III) citrate (Fe−Cit), Arizona Test Dust (ATD), and Fe 2 O 3 , along with the dark reaction of iodate with H 2 O 2 at 90% RH and 293 K. Fresh films were separately irradiated with visible and UV-A light, and the efficient release of molecular iodine, I 2 , was observed from all irradiated films containing photocatalysts. For films with Fe−Cit, visible light reduced larger amounts of iodate than UV-A light, activating ∼40% of iodate as I 2 . The formation of oxygenated volatile organic compounds (OVOC) and iodinated OVOC was also observed. Dark exposure of films to H 2 O 2 led to I 2 release in smaller amounts than suggested by Bray−Liebhafsky kinetics, consistent with H 2 O 2 salting-out in the films, or possibly other reasons. Photochemical activation is enhanced by dust proxies in the film, and by aging the film with H 2 O 2 in the dark prior to irradiation. These findings help explain recent field observations of elevated IO radical concentrations in lofted dust layers, and warrant the inclusion of photocatalyzed iodate reduction in atmospheric models.

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Substantial organic impurities at the surface of synthetic ammonium sulfate particles

Cited by 2 publications

References 72 publications

Growth Rate Dependence of Secondary Organic Aerosol on Seed Particle Size, Composition, and Phase

Growth Rate Dependence of Secondary Organic Aerosol on Seed Particle Size, Composition, and Phase

Iodine Activation from Iodate Reduction in Aqueous Films via Photocatalyzed and Dark Reactions

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