Articles | Volume 16, issue 9
https://doi.org/10.5194/acp-16-5993-2016
© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.
the Creative Commons Attribution 3.0 License.
https://doi.org/10.5194/acp-16-5993-2016
© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.
the Creative Commons Attribution 3.0 License.
Research article
| 
17 May 2016
Research article |
| 17 May 2016
Simulating the SOA formation of isoprene from partitioning and aerosol phase reactions in the presence of inorganics
Ross L. Beardsley
Department of Environmental Engineering Sciences,
University of Florida, P.O. Box 116450, Gainesville, FL 32611,
USA
Department of Environmental Engineering Sciences,
University of Florida, P.O. Box 116450, Gainesville, FL 32611,
USA
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28 citations as recorded by crossref.
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- Secondary organic aerosol formation from propylene irradiations in a chamber study S. Ge et al. 10.1016/j.atmosenv.2017.03.019
- Suppression of the Phenolic Soa Formation in the Presence of Electrolytic Inorganic Seed J. Choi & M. Jang 10.2139/ssrn.4107523
- Effects of inorganic seeds on secondary organic aerosol formation from photochemical oxidation of acetone in a chamber S. Ge et al. 10.1016/j.atmosenv.2017.09.036
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- Morphology and size of the particles emitted from a gasoline-direct-injection-engine vehicle and their ageing in an environmental chamber J. Xing et al. 10.5194/acp-20-2781-2020
- Secondary organic aerosol formation via multiphase reaction of hydrocarbons in urban atmospheres using CAMx integrated with the UNIPAR model Z. Yu et al. 10.5194/acp-22-9083-2022
- In situ aerosol acidity measurements using a UV–Visible micro-spectrometer and its application to the ambient air M. Jang et al. 10.1080/02786826.2020.1711510
- Organosulfates in Ambient Aerosol: State of Knowledge and Future Research Directions on Formation, Abundance, Fate, and Importance M. Brüggemann et al. 10.1021/acs.est.9b06751
- Modeling atmospheric mineral aerosol chemistry to predict heterogeneous photooxidation of SO<sub>2</sub> Z. Yu et al. 10.5194/acp-17-10001-2017
- Simulating the impact of gas-wall partitioning on SOA formation using the explicit gas mechanism integrated with aqueous reactions containing electrolytes S. Han & M. Jang 10.1016/j.scitotenv.2020.141360
- Modelling the gas–particle partitioning and water uptake of isoprene-derived secondary organic aerosol at high and low relative humidity D. Amaladhasan et al. 10.5194/acp-22-215-2022
- Current State of Atmospheric Aerosol Thermodynamics and Mass Transfer Modeling: A Review K. Semeniuk & A. Dastoor 10.3390/atmos11020156
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- Effects of NO and SO2 on the secondary organic aerosol formation from the photooxidation of 1,3,5-trimethylbenzene: A new source of organosulfates Z. Yang et al. 10.1016/j.envpol.2020.114742
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- Prediction of Phase State of Secondary Organic Aerosol Internally Mixed with Aqueous Inorganic Salts Z. Yu et al. 10.1021/acs.jpca.1c06773
- Dynamic Oxidative Potential of Atmospheric Organic Aerosol under Ambient Sunlight H. Jiang & M. Jang 10.1021/acs.est.8b00148
2 citations as recorded by crossref.
- Prediction of delivery of organic aerosols onto air-liquid interface cells in vitro using an electrostatic precipitator Z. Yu et al. 10.1016/j.tiv.2017.05.011
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Latest update: 24 Apr 2024
Short summary
The secondary organic aerosol (SOA) produced by the photooxidation of isoprene with and without inorganic seed is simulated using the Unified Partitioning Aerosol Phase Reaction (UNIPAR) model, assuming a single homogenously mixed organic–inorganic phase. UNIPAR is used to determine the sensitivity of isoprene SOA formation to NOx, aerosol acidity and aerosol liquid water content. Isoprene SOA is found to be most sensitive to aerosol acidity but dynamically related to all three parameters.
The secondary organic aerosol (SOA) produced by the photooxidation of isoprene with and without...
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