Physical Properties of Short Chain Aqueous Organosulfate Aerosol

Alison M Bain; Man Nin Chan; Bryan R Bzdek

doi:10.1039/d3ea00088e

Physical Properties of Short Chain Aqueous Organosulfate Aerosol

Alison M Bain, Man Nin Chan, Bryan R Bzdek^*

^*Corresponding author for this work

Research output: Contribution to journal › Article (Academic Journal) › peer-review

15 Citations (Scopus)

Abstract

Organosulfates comprise up to 30% of the organic fraction of aerosol. Organosulfate aerosol physical properties, such as water activity, density, refractive index, and surface tension, are key to predicting their impact on global climate. However, current understanding of these properties is limited. Here, we measure the physical properties of aqueous solutions containing sodium methyl or ethyl sulfate and parameterise the data as a function of solute concentration. The experimental data are compared to available literature data for organosulfates, as well as salts (sodium sulfate and sodium bisulfate) and organics (short alkyl chain length alcohols and carboxylic acids) to determine if the physical properties of organosulfates can be approximated by molecules of similar functionality. With the exception of water activity, we find that organosulfates have intermediate physical properties between those of the salts and short alkyl chain organics. This work highlights the importance of measuring and developing models for the physical properties of abundant atmospheric organosulfates in order to better describe aerosol's impact on climate.

Original language	English
Pages (from-to)	1365-1373
Number of pages	9
Journal	Environmental Science: Atmospheres
Volume	3
Issue number	9
Early online date	9 Aug 2023
DOIs	https://doi.org/10.1039/d3ea00088e
Publication status	E-pub ahead of print - 9 Aug 2023

Bibliographical note

Funding Information:
All data presented in this manuscript are available free of charge in the ESI.† B. R. B. acknowledges funding from the European Research Council (ERC): project AeroSurf, Grant agreement ID: 948498 and the National Environmental Research Council (NERC): NE/P018459/1. A. B. acknowledges the Natural Science and Engineering Research Council of Canada (NSERC) for support through a Postdoctoral fellowship (PDF). M. N. C. acknowledges Hong Kong Research Grants Council (14300921) and Collaborative Research Impact Matching Scheme (CRIMS) from the Chinese University of Hong Kong (4620025).

Publisher Copyright:
© 2023 RSC.

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SDG 13 Climate Action

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Physical & Theoretical

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title = "Physical Properties of Short Chain Aqueous Organosulfate Aerosol",

abstract = "Organosulfates comprise up to 30\% of the organic fraction of aerosol. Organosulfate aerosol physical properties, such as water activity, density, refractive index, and surface tension, are key to predicting their impact on global climate. However, current understanding of these properties is limited. Here, we measure the physical properties of aqueous solutions containing sodium methyl or ethyl sulfate and parameterise the data as a function of solute concentration. The experimental data are compared to available literature data for organosulfates, as well as salts (sodium sulfate and sodium bisulfate) and organics (short alkyl chain length alcohols and carboxylic acids) to determine if the physical properties of organosulfates can be approximated by molecules of similar functionality. With the exception of water activity, we find that organosulfates have intermediate physical properties between those of the salts and short alkyl chain organics. This work highlights the importance of measuring and developing models for the physical properties of abundant atmospheric organosulfates in order to better describe aerosol's impact on climate.",

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note = "Funding Information: All data presented in this manuscript are available free of charge in the ESI.† B. R. B. acknowledges funding from the European Research Council (ERC): project AeroSurf, Grant agreement ID: 948498 and the National Environmental Research Council (NERC): NE/P018459/1. A. B. acknowledges the Natural Science and Engineering Research Council of Canada (NSERC) for support through a Postdoctoral fellowship (PDF). M. N. C. acknowledges Hong Kong Research Grants Council (14300921) and Collaborative Research Impact Matching Scheme (CRIMS) from the Chinese University of Hong Kong (4620025). Publisher Copyright: {\textcopyright} 2023 RSC.",

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AU - Bain, Alison M

AU - Man Nin Chan

AU - Bzdek, Bryan R

N1 - Funding Information: All data presented in this manuscript are available free of charge in the ESI.† B. R. B. acknowledges funding from the European Research Council (ERC): project AeroSurf, Grant agreement ID: 948498 and the National Environmental Research Council (NERC): NE/P018459/1. A. B. acknowledges the Natural Science and Engineering Research Council of Canada (NSERC) for support through a Postdoctoral fellowship (PDF). M. N. C. acknowledges Hong Kong Research Grants Council (14300921) and Collaborative Research Impact Matching Scheme (CRIMS) from the Chinese University of Hong Kong (4620025). Publisher Copyright: © 2023 RSC.

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N2 - Organosulfates comprise up to 30% of the organic fraction of aerosol. Organosulfate aerosol physical properties, such as water activity, density, refractive index, and surface tension, are key to predicting their impact on global climate. However, current understanding of these properties is limited. Here, we measure the physical properties of aqueous solutions containing sodium methyl or ethyl sulfate and parameterise the data as a function of solute concentration. The experimental data are compared to available literature data for organosulfates, as well as salts (sodium sulfate and sodium bisulfate) and organics (short alkyl chain length alcohols and carboxylic acids) to determine if the physical properties of organosulfates can be approximated by molecules of similar functionality. With the exception of water activity, we find that organosulfates have intermediate physical properties between those of the salts and short alkyl chain organics. This work highlights the importance of measuring and developing models for the physical properties of abundant atmospheric organosulfates in order to better describe aerosol's impact on climate.

AB - Organosulfates comprise up to 30% of the organic fraction of aerosol. Organosulfate aerosol physical properties, such as water activity, density, refractive index, and surface tension, are key to predicting their impact on global climate. However, current understanding of these properties is limited. Here, we measure the physical properties of aqueous solutions containing sodium methyl or ethyl sulfate and parameterise the data as a function of solute concentration. The experimental data are compared to available literature data for organosulfates, as well as salts (sodium sulfate and sodium bisulfate) and organics (short alkyl chain length alcohols and carboxylic acids) to determine if the physical properties of organosulfates can be approximated by molecules of similar functionality. With the exception of water activity, we find that organosulfates have intermediate physical properties between those of the salts and short alkyl chain organics. This work highlights the importance of measuring and developing models for the physical properties of abundant atmospheric organosulfates in order to better describe aerosol's impact on climate.

U2 - 10.1039/d3ea00088e

DO - 10.1039/d3ea00088e

M3 - Article (Academic Journal)

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SN - 2634-3606

VL - 3

SP - 1365

EP - 1373

JO - Environmental Science: Atmospheres

JF - Environmental Science: Atmospheres

IS - 9

ER -

Physical Properties of Short Chain Aqueous Organosulfate Aerosol

Abstract

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