Heterogeneous OH oxidation of isoprene-epoxydiol-derived organosulfates: kinetics, chemistry and formation of inorganic sulfate

Lam, Hoi Ki; Kwong, Kai Chung; Poon, Hon Yin; Davies, James F.; Zhang, Zhenfa; Gold, Avram; Surratt, Jason D.; Chan, Man Nin

doi:https://doi.org/10.5194/acp-19-2433-2019

Articles | Volume 19, issue 4

https://doi.org/10.5194/acp-19-2433-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/acp-19-2433-2019

© Author(s) 2019. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 19, issue 4

Research article

|

26 Feb 2019

Research article |

| 26 Feb 2019

Heterogeneous OH oxidation of isoprene-epoxydiol-derived organosulfates: kinetics, chemistry and formation of inorganic sulfate

Hoi Ki Lam, Kai Chung Kwong, Hon Yin Poon, James F. Davies, Zhenfa Zhang, Avram Gold, Jason D. Surratt, and Man Nin Chan

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Final revised paper (published on 26 Feb 2019)
Supplement to the final revised paper
Preprint (discussion started on 23 Oct 2018)

Interactive discussion

Status: closed

AC: Author comment | RC: Referee comment | SC: Short comment | EC: Editor comment

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- Supplement

RC1: 'Review of "Heterogeneous OH Oxidation of Isoprene Epoxydiol-Derived Organosulfates: Kinetics, Chemistry and Formation of Inorganic Sulfate"', Anonymous Referee #3, 17 Dec 2018
- AC1: 'Reply to reviewer 3 's comments', ManNin Chan, 21 Jan 2019
RC2: 'Heterogeneous Oxidation of Organosulfates', Anonymous Referee #1, 23 Dec 2018
- AC2: 'Reply to reviewer 1's comments', ManNin Chan, 21 Jan 2019

Peer-review completion

AR: Author's response | RR: Referee report | ED: Editor decision

AR by ManNin Chan on behalf of the Authors (21 Jan 2019) Author's response Manuscript

ED: Publish subject to minor revisions (review by editor) (13 Feb 2019) by Frank Keutsch

Dear authors,

Thanks for submitting this manuscript with very interesting and important results to ACP. Thanks for your detailed responses to the reviewer comments.

I would ask whether you consider a few minor comments largely triggered by some of the reviewer comments.

p.1:

Line 18. I think that the metyltetrol sulfates are the most abundant in the boundary layer, but for the overall atmosphere it has been suggested that it may be glycolic acid sulfate (Liao et al. JGR 2015)

Line 23. In line with some of the reviewer comments. The way it is written the readers will at this stage assume that reaction products were observed. I suggest eliminating the reaction products as argument in the abstract. I do not think this detracts from the main finding, which is the rate constant.

Line 27. Also, following up on one of the reviewer comments. The effective rate OH constant is given as it is usually for a gas-phase reaction. It may be useful to explain this in the abstract or provide a context as why it is given as gas-phase when it is a heterogeneous reaction.

Line 28. Please state the assumed OH concentration for this (1.5E6?).

Line 31. “absence of functionalization processes” is a little awkward. One could argue that changing an alcohol to an aldehyde or acid, even if it is just formaldehyde and formic acid, is a functionalization process as it changes the functional groups, so perhaps the phrasing could be improved. I think the important aspect is that the results strongly suggest fragmentation, as stated in the next sentence.

P. 2 Line 11. I may be mistaken, but my impression was that the C5-alkene triols are not direct SOA constituents but rather decomposition products from the analytical techniques.

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AR by ManNin Chan on behalf of the Authors (13 Feb 2019) Author's response Manuscript

ED: Publish as is (14 Feb 2019) by Frank Keutsch

AR by ManNin Chan on behalf of the Authors (15 Feb 2019) Author's response Manuscript

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Short summary

Organosulfates are ubiquitous in the atmosphere. We find that chemical transformation of IEPOX-derived organosulfates, one of the most abundant organosulfates, can generate inorganic sulfate through heterogeneous OH oxidation. The findings of this work provide new reaction pathways for recycling of inorganic and organic sulfur and may suggest that organosulfates could be reservoirs of inorganic sulfates in the atmosphere.