Low-volatility compounds contribute significantly to isoprene secondary organic aerosol (SOA) under high-NO<sub><i>x</i></sub> conditions

Schwantes, Rebecca H.; Charan, Sophia M.; Bates, Kelvin H.; Huang, Yuanlong; Nguyen, Tran B.; Mai, Huajun; Kong, Weimeng; Flagan, Richard C.; Seinfeld, John H.

doi:https://doi.org/10.5194/acp-19-7255-2019

Articles | Volume 19, issue 11

https://doi.org/10.5194/acp-19-7255-2019

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

https://doi.org/10.5194/acp-19-7255-2019

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

Articles | Volume 19, issue 11

Research article

|

03 Jun 2019

Research article |

| 03 Jun 2019

Low-volatility compounds contribute significantly to isoprene secondary organic aerosol (SOA) under high-NO_x conditions

Rebecca H. Schwantes, Sophia M. Charan, Kelvin H. Bates, Yuanlong Huang, Tran B. Nguyen, Huajun Mai, Weimeng Kong, Richard C. Flagan, and John H. Seinfeld

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Apr 2019	16	12	0	28
May 2019	34	19	1	54
Jun 2019	356	150	9	515
Jul 2019	38	45	0	83
Aug 2019	25	18	0	43
Sep 2019	24	24	0	48
Oct 2019	20	14	1	35
Nov 2019	22	18	0	40
Dec 2019	19	22	0	41
Jan 2020	32	23	0	55
Feb 2020	17	9	1	27
Mar 2020	17	6	0	23
Apr 2020	21	12	1	34
May 2020	32	14	0	46
Jun 2020	30	16	0	46
Jul 2020	28	18	4	50
Aug 2020	29	17	2	48
Sep 2020	24	8	1	33
Oct 2020	8	9	0	17
Nov 2020	15	11	0	26
Dec 2020	16	8	0	24
Jan 2021	21	9	0	30
Feb 2021	28	15	0	43
Mar 2021	17	11	0	28
Apr 2021	32	15	0	47
May 2021	16	15	0	31
Jun 2021	16	9	0	25
Jul 2021	13	15	0	28
Aug 2021	27	14	0	41
Sep 2021	14	12	0	26
Oct 2021	25	48	0	73
Nov 2021	41	37	1	79
Dec 2021	20	11	0	31
Jan 2022	31	10	0	41
Feb 2022	19	10	2	31
Mar 2022	51	24	0	75
Apr 2022	26	9	0	35
May 2022	16	9	0	25
Jun 2022	11	10	0	21
Jul 2022	30	7	0	37
Aug 2022	90	17	1	108
Sep 2022	43	7	0	50
Oct 2022	30	4	2	36
Nov 2022	20	13	0	33
Dec 2022	31	11	4	46
Jan 2023	29	14	1	44
Feb 2023	30	13	0	43
Mar 2023	35	9	3	47
Apr 2023	10	8	0	18
May 2023	19	8	0	27
Jun 2023	15	7	2	24
Jul 2023	21	13	3	37
Aug 2023	35	11	5	51
Sep 2023	75	9	2	86
Oct 2023	135	13	2	150
Nov 2023	119	6	0	125
Dec 2023	46	5	0	51
Jan 2024	235	9	1	245
Feb 2024	38	14	0	52
Mar 2024	31	22	1	54
Apr 2024	121	16	4	141
May 2024	42	10	2	54
Jun 2024	49	10	1	60
Jul 2024	482	7	0	489
Aug 2024	42	20	4	66
Sep 2024	24	9	2	35
Oct 2024	33	3	1	37
Nov 2024	33	8	4	45
Dec 2024	47	7	0	54
Jan 2025	40	11	1	52
Feb 2025	41	10	0	51
Mar 2025	74	9	2	85
Apr 2025	47	31	2	80
May 2025	49	8	1	58
Jun 2025	60	12	5	77
Jul 2025	46	15	0	61
Aug 2025	79	14	1	94
Sep 2025	73	19	2	94
Oct 2025	45	27	0	72
Nov 2025	8	5	0	13

Cumulative views and downloads (calculated since 11 Jan 2019)

Month	HTML	PDF	XML	Total
Jan 2019	208	67	4	279
Feb 2019	30	8	0	38
Mar 2019	11	14	0	25
Apr 2019	16	12	0	28
May 2019	34	19	1	54
Jun 2019	356	150	9	515
Jul 2019	38	45	0	83
Aug 2019	25	18	0	43
Sep 2019	24	24	0	48
Oct 2019	20	14	1	35
Nov 2019	22	18	0	40
Dec 2019	19	22	0	41
Jan 2020	32	23	0	55
Feb 2020	17	9	1	27
Mar 2020	17	6	0	23
Apr 2020	21	12	1	34
May 2020	32	14	0	46
Jun 2020	30	16	0	46
Jul 2020	28	18	4	50
Aug 2020	29	17	2	48
Sep 2020	24	8	1	33
Oct 2020	8	9	0	17
Nov 2020	15	11	0	26
Dec 2020	16	8	0	24
Jan 2021	21	9	0	30
Feb 2021	28	15	0	43
Mar 2021	17	11	0	28
Apr 2021	32	15	0	47
May 2021	16	15	0	31
Jun 2021	16	9	0	25
Jul 2021	13	15	0	28
Aug 2021	27	14	0	41
Sep 2021	14	12	0	26
Oct 2021	25	48	0	73
Nov 2021	41	37	1	79
Dec 2021	20	11	0	31
Jan 2022	31	10	0	41
Feb 2022	19	10	2	31
Mar 2022	51	24	0	75
Apr 2022	26	9	0	35
May 2022	16	9	0	25
Jun 2022	11	10	0	21
Jul 2022	30	7	0	37
Aug 2022	90	17	1	108
Sep 2022	43	7	0	50
Oct 2022	30	4	2	36
Nov 2022	20	13	0	33
Dec 2022	31	11	4	46
Jan 2023	29	14	1	44
Feb 2023	30	13	0	43
Mar 2023	35	9	3	47
Apr 2023	10	8	0	18
May 2023	19	8	0	27
Jun 2023	15	7	2	24
Jul 2023	21	13	3	37
Aug 2023	35	11	5	51
Sep 2023	75	9	2	86
Oct 2023	135	13	2	150
Nov 2023	119	6	0	125
Dec 2023	46	5	0	51
Jan 2024	235	9	1	245
Feb 2024	38	14	0	52
Mar 2024	31	22	1	54
Apr 2024	121	16	4	141
May 2024	42	10	2	54
Jun 2024	49	10	1	60
Jul 2024	482	7	0	489
Aug 2024	42	20	4	66
Sep 2024	24	9	2	35
Oct 2024	33	3	1	37
Nov 2024	33	8	4	45
Dec 2024	47	7	0	54
Jan 2025	40	11	1	52
Feb 2025	41	10	0	51
Mar 2025	74	9	2	85
Apr 2025	47	31	2	80
May 2025	49	8	1	58
Jun 2025	60	12	5	77
Jul 2025	46	15	0	61
Aug 2025	79	14	1	94
Sep 2025	73	19	2	94
Oct 2025	45	27	0	72
Nov 2025	8	5	0	13

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Short summary

Oxidation of isoprene, the dominant non-methane biogenic volatile organic compound emitted into the atmosphere, is a significant source of secondary organic aerosol (SOA). Here formation of SOA from isoprene oxidation by the hydroxyl radical (OH) under high-NO conditions is measured. This work improves our understanding of isoprene SOA formation by demonstrating that low-volatility compounds formed under high-NO conditions produce significantly more aerosol than previously thought.


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Low-volatility compounds contribute significantly to isoprene secondary organic aerosol (SOA) under high-NOx conditions

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Low-volatility compounds contribute significantly to isoprene secondary organic aerosol (SOA) under high-NO_x conditions