Grantee Research Project Results
Selected Publications Details for Grant Number R840008
Developing mechanisms for secondary organic aerosol from oxygenated volatile organic compounds in biomass burning and volatile chemical product emissions
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Chemical Mechanisms to Address New Challenges in Air Quality Modeling (2019)
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| Reference Type | Reference Title | Journal | Author | Citation | Progress Report Year | Document Sources |
|---|---|---|---|---|---|---|
| Journal Article | Multi-day photochemical evolution of organic aerosol from biomass burning emissions. | None | Dearden A, He Y, Akherati A, Lim CY, Coggon MM, Koss AR, de Gouw J, Warneke C, Yee LD, Seinfeld JH, Cappa CD, Kroll JH, Pierce JR, Jathar SH | Dearden A, He Y, Akherati A, Lim CY, Coggon MM, Koss AR, de Gouw J, Warneke C, Yee LD, Seinfeld JH, Cappa CD, Kroll JH, Pierce JR, Jathar SH. Multi-day photochemical evolution of organic aerosol from biomass burning emissions. Environmental Science:Atmospheres. 2024;4(8):925-41. |
R840008 (2024) |
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| Journal Article | A comprehensive evaluation of enhanced temperature influence on gas and aerosol chemistry in the lamp-enclosed oxidation flow reactor (OFR) system. | None | Pan T, Lambe AT, Hu W, He Y, Hu M, Zhou H, Wang X, Hu Q, Chen H, Zhao Y, Huang Y, Worsnop DR, Peng Z, Morris MA, Day DA, Campuzano-Jost P, Jimenez JL, Jathar SH | Pan T, Lambe AT, Hu W, He Y, Hu M, Zhou H, Wang X, Hu Q, Chen H, Zhao Y, Huang Y, Worsnop DR, Peng Z, Morris MA, Day DA, Campuzano-Jost P, Jimenez JL, Jathar SH. A comprehensive evaluation of enhanced temperature influence on gas and aerosol chemistry in the lamp-enclosed oxidation flow reactor (OFR) system. Atmospheric Measurement Techniques. 2024;17(16):4915-39. |
R840008 (2024) |
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| Journal Article | Intense formation of secondary ultrafine particles from Amazonian vegetation fires and their invigoration of deep clouds and precipitation. | None | Shrivastava M, Fan J, Zhang Y, Rasool QZ, Zhao B, Shen J, Pierce JR, Jathar SH, Akherati A, Zhang J, Zaveri RA, Gaudet B, Liu Y, Andreae MO, Pohlker ML, Donahue NM, Wang Y, Seinfeld JH | Shrivastava M, Fan J, Zhang Y, Rasool QZ, Zhao B, Shen J, Pierce JR, Jathar SH, Akherati A, Zhang J, Zaveri RA, Gaudet B, Liu Y, Andreae MO, Pohlker ML, Donahue NM, Wang Y, Seinfeld JH. Intense formation of secondary ultrafine particles from Amazonian vegetation fires and their invigoration of deep clouds and precipitation. One Earth. 2024;7(6):1029-43. |
R840008 (2024) |
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| Journal Article | Aerosol size distribution changes in FIREX-AQ biomass burning plumes:the impact of plume concentration on coagulation and OA condensation/evaporation. | ATMOSPHERIC CHEMISTRY AND PHYSICS | June NA, Hodshire AL, Wiggins EB, Winstead EL, Robinson CE, Thornhill KL, Sanchez KJ, Moore RH, Pagonis D, Guo H, Campuzano-Jost P, Jimenez JL, Coggon MM, Dean-Day JM, Bui TP, Peischl J, et al | June NA, Hodshire AL, Wiggins EB, Winstead EL, Robinson CE, Thornhill KL, Sanchez KJ, Moore RH, Pagonis D, Guo H, Campuzano-Jost P, Jimenez JL, Coggon MM, Dean-Day JM, Bui TP, Peischl J, et al. Aerosol size distribution changes in FIREX-AQ biomass burning plumes:the impact of plume concentration on coagulation and OA condensation/evaporation. Atmospheric Chemistry and Physics 2022;22:12803–25. doi:10.5194/acp-22-12803-2022. |
R840008 (2022) |
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| Journal Article | Process-level modeling can simultaneously explain secondary organic aerosol evolution in chambers and flow reactors. | ENVIRONMENTAL SCIENCE & TECHNOLOGY | He Y, Lambe AT, Seinfeld JH, Cappa CD, Pierce JR, Jathar SH | He Y, Lambe AT, Seinfeld JH, Cappa CD, Pierce JR, Jathar SH. Process-level modeling can simultaneously explain secondary organic aerosol evolution in chambers and flow reactors. Environmental Science & Technology 2022;56:6262–73. doi:10.1021/acs.est.1c08520. |
R840008 (2022) |
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| Journal Article | Secondary organic aerosol formation from volatile chemical product emissions: Model parameters and contributions to anthropogenic aerosol. | ENVIRONMENTAL SCIENCE TECHNOLOGY | Sasidharan S, He Y, Akherati A, Li Q, Li W, Cocker D, McDonald BC, Coggon MM, Seltzer KM, Pye HOT, Pierce JR, Jathar SH | Sasidharan S, He Y, Akherati A, Li Q, Li W, Cocker D, McDonald BC, Coggon MM, Seltzer KM, Pye HOT, Pierce JR, Jathar SH. Secondary organic aerosol formation from volatile chemical product emissions:Model parameters and contributions to anthropogenic aerosol. Environmental Science & Technology 2023;57:11891–902. doi:10.1021/acs.est.3c00683. |
R840008 (2023) |
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| Journal Article | Dilution and photooxidation driven processes explain the evolution of organic aerosol in wildfire plumes. | ENVIRONMENTAL SCIENCE:ATMOSPHERES 2022;2:1000–22. DOI:10.1039/D1EA00082A | Akherati A, He Y, Garofalo LA, Hodshire AL, Farmer DK, Kreidenweis SM, Permar W, Hu L, Fischer EV, Jen CN, Goldstein AH, Levin EJT, DeMott PJ, Campos TL, Flocke F, Reeves JM, et al | Akherati A, He Y, Garofalo LA, Hodshire AL, Farmer DK, Kreidenweis SM, Permar W, Hu L, Fischer EV, Jen CN, Goldstein AH, Levin EJT, DeMott PJ, Campos TL, Flocke F, Reeves JM, et al. Dilution and photooxidation driven processes explain the evolution of organic aerosol in wildfire plumes. Environmental Science:Atmospheres 2022;2:1000–22. doi:10.1039/D1EA00082A. . |
R840008 (2022) |
The perspectives, information and conclusions conveyed in research project abstracts, progress reports, final reports, journal abstracts and journal publications convey the viewpoints of the principal investigator and may not represent the views and policies of ORD and EPA. Conclusions drawn by the principal investigators have not been reviewed by the Agency.