Impact of molecular structure on secondary organic aerosol formation from
aromatic hydrocarbon photooxidation under low-NO<sub><i>x</i></sub> conditions

Li, Lijie; Tang, Ping; Nakao, Shunsuke; Cocker III, David R.

doi:10.5194/acp-16-10793-2016

Articles | Volume 16, issue 17

https://doi.org/10.5194/acp-16-10793-2016

© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/acp-16-10793-2016

© Author(s) 2016. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 16, issue 17

Research article

|

31 Aug 2016

Research article |

| 31 Aug 2016

Impact of molecular structure on secondary organic aerosol formation from aromatic hydrocarbon photooxidation under low-NO_x conditions

Lijie Li, Ping Tang, Shunsuke Nakao, and David R. Cocker III

Viewed

Total article views: 4,006 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	Supplement	BibTeX	EndNote
2,397	1,485	124	4,006	515	132	160

HTML: 2,397
PDF: 1,485
XML: 124
Total: 4,006
Supplement: 515
BibTeX: 132
EndNote: 160

Views and downloads (calculated since 15 Jan 2016)

Month	HTML	PDF	XML	Total
Jan 2016	161	88	10	259
Feb 2016	40	60	5	105
Mar 2016	25	37	0	62
Apr 2016	22	31	0	53
May 2016	22	12	1	35
Jun 2016	5	2	1	8
Jul 2016	7	3	0	10
Aug 2016	100	30	1	131
Sep 2016	117	38	1	156
Oct 2016	27	12	0	39
Nov 2016	13	18	0	31
Dec 2016	7	17	0	24
Jan 2017	18	28	2	48
Feb 2017	13	21	1	35
Mar 2017	26	44	1	71
Apr 2017	20	17	0	37
May 2017	30	20	2	52
Jun 2017	18	6	1	25
Jul 2017	17	10	0	27
Aug 2017	13	11	1	25
Sep 2017	14	14	0	28
Oct 2017	10	8	0	18
Nov 2017	10	8	1	19
Dec 2017	7	6	2	15
Jan 2018	11	12	0	23
Feb 2018	7	6	0	13
Mar 2018	11	9	2	22
Apr 2018	13	10	0	23
May 2018	15	9	0	24
Jun 2018	9	8	1	18
Jul 2018	8	4	0	12
Aug 2018	15	15	0	30
Sep 2018	8	13	0	21
Oct 2018	15	12	2	29
Nov 2018	14	18	3	35
Dec 2018	9	12	0	21
Jan 2019	7	6	0	13
Feb 2019	9	4	0	13
Mar 2019	8	9	0	17
Apr 2019	8	7	0	15
May 2019	10	8	0	18
Jun 2019	16	10	0	26
Jul 2019	7	6	0	13
Aug 2019	6	7	0	13
Sep 2019	2	1	0	3
Oct 2019	8	9	2	19
Nov 2019	10	9	2	21
Dec 2019	3	4	0	7
Jan 2020	14	7	0	21
Feb 2020	8	8	0	16
Mar 2020	4	3	1	8
Apr 2020	2	4	0	6
May 2020	4	4	0	8
Jun 2020	17	15	0	32
Jul 2020	17	11	3	31
Aug 2020	14	9	3	26
Sep 2020	10	15	2	27
Oct 2020	9	4	0	13
Nov 2020	12	11	1	24
Dec 2020	10	5	0	15
Jan 2021	22	12	0	34
Feb 2021	9	9	0	18
Mar 2021	10	12	1	23
Apr 2021	14	11	0	25
May 2021	9	9	1	19
Jun 2021	8	5	1	14
Jul 2021	12	9	0	21
Aug 2021	14	15	1	30
Sep 2021	15	16	0	31
Oct 2021	11	37	0	48
Nov 2021	8	25	1	34
Dec 2021	16	11	0	27
Jan 2022	15	10	1	26
Feb 2022	9	7	4	20
Mar 2022	12	14	0	26
Apr 2022	7	6	1	14
May 2022	7	10	0	17
Jun 2022	8	8	2	18
Jul 2022	7	8	2	17
Aug 2022	9	7	0	16
Sep 2022	12	5	0	17
Oct 2022	11	4	1	16
Nov 2022	7	9	0	16
Dec 2022	15	8	0	23
Jan 2023	13	12	1	26
Feb 2023	14	5	0	19
Mar 2023	30	11	0	41
Apr 2023	10	7	0	17
May 2023	29	10	0	39
Jun 2023	43	8	3	54
Jul 2023	38	5	0	43
Aug 2023	37	11	2	50
Sep 2023	46	9	0	55
Oct 2023	53	12	2	67
Nov 2023	24	3	0	27
Dec 2023	47	9	2	58
Jan 2024	43	1	1	45
Feb 2024	44	6	0	50
Mar 2024	48	12	3	63
Apr 2024	48	10	5	63
May 2024	17	12	3	32
Jun 2024	21	8	2	31
Jul 2024	20	13	5	38
Aug 2024	37	7	2	46
Sep 2024	21	8	0	29
Oct 2024	24	5	0	29
Nov 2024	15	7	3	25
Dec 2024	16	3	1	20
Jan 2025	22	7	3	32
Feb 2025	30	13	3	46
Mar 2025	17	4	3	24
Apr 2025	15	18	2	35
May 2025	28	3	0	31
Jun 2025	38	20	2	60
Jul 2025	23	16	1	40
Aug 2025	44	16	1	61
Sep 2025	27	16	2	45
Oct 2025	24	25	0	49
Nov 2025	25	34	4	63
Dec 2025	7	7	0	14

Cumulative views and downloads (calculated since 15 Jan 2016)

Month	HTML	PDF	XML	Total
Jan 2016	161	88	10	259
Feb 2016	40	60	5	105
Mar 2016	25	37	0	62
Apr 2016	22	31	0	53
May 2016	22	12	1	35
Jun 2016	5	2	1	8
Jul 2016	7	3	0	10
Aug 2016	100	30	1	131
Sep 2016	117	38	1	156
Oct 2016	27	12	0	39
Nov 2016	13	18	0	31
Dec 2016	7	17	0	24
Jan 2017	18	28	2	48
Feb 2017	13	21	1	35
Mar 2017	26	44	1	71
Apr 2017	20	17	0	37
May 2017	30	20	2	52
Jun 2017	18	6	1	25
Jul 2017	17	10	0	27
Aug 2017	13	11	1	25
Sep 2017	14	14	0	28
Oct 2017	10	8	0	18
Nov 2017	10	8	1	19
Dec 2017	7	6	2	15
Jan 2018	11	12	0	23
Feb 2018	7	6	0	13
Mar 2018	11	9	2	22
Apr 2018	13	10	0	23
May 2018	15	9	0	24
Jun 2018	9	8	1	18
Jul 2018	8	4	0	12
Aug 2018	15	15	0	30
Sep 2018	8	13	0	21
Oct 2018	15	12	2	29
Nov 2018	14	18	3	35
Dec 2018	9	12	0	21
Jan 2019	7	6	0	13
Feb 2019	9	4	0	13
Mar 2019	8	9	0	17
Apr 2019	8	7	0	15
May 2019	10	8	0	18
Jun 2019	16	10	0	26
Jul 2019	7	6	0	13
Aug 2019	6	7	0	13
Sep 2019	2	1	0	3
Oct 2019	8	9	2	19
Nov 2019	10	9	2	21
Dec 2019	3	4	0	7
Jan 2020	14	7	0	21
Feb 2020	8	8	0	16
Mar 2020	4	3	1	8
Apr 2020	2	4	0	6
May 2020	4	4	0	8
Jun 2020	17	15	0	32
Jul 2020	17	11	3	31
Aug 2020	14	9	3	26
Sep 2020	10	15	2	27
Oct 2020	9	4	0	13
Nov 2020	12	11	1	24
Dec 2020	10	5	0	15
Jan 2021	22	12	0	34
Feb 2021	9	9	0	18
Mar 2021	10	12	1	23
Apr 2021	14	11	0	25
May 2021	9	9	1	19
Jun 2021	8	5	1	14
Jul 2021	12	9	0	21
Aug 2021	14	15	1	30
Sep 2021	15	16	0	31
Oct 2021	11	37	0	48
Nov 2021	8	25	1	34
Dec 2021	16	11	0	27
Jan 2022	15	10	1	26
Feb 2022	9	7	4	20
Mar 2022	12	14	0	26
Apr 2022	7	6	1	14
May 2022	7	10	0	17
Jun 2022	8	8	2	18
Jul 2022	7	8	2	17
Aug 2022	9	7	0	16
Sep 2022	12	5	0	17
Oct 2022	11	4	1	16
Nov 2022	7	9	0	16
Dec 2022	15	8	0	23
Jan 2023	13	12	1	26
Feb 2023	14	5	0	19
Mar 2023	30	11	0	41
Apr 2023	10	7	0	17
May 2023	29	10	0	39
Jun 2023	43	8	3	54
Jul 2023	38	5	0	43
Aug 2023	37	11	2	50
Sep 2023	46	9	0	55
Oct 2023	53	12	2	67
Nov 2023	24	3	0	27
Dec 2023	47	9	2	58
Jan 2024	43	1	1	45
Feb 2024	44	6	0	50
Mar 2024	48	12	3	63
Apr 2024	48	10	5	63
May 2024	17	12	3	32
Jun 2024	21	8	2	31
Jul 2024	20	13	5	38
Aug 2024	37	7	2	46
Sep 2024	21	8	0	29
Oct 2024	24	5	0	29
Nov 2024	15	7	3	25
Dec 2024	16	3	1	20
Jan 2025	22	7	3	32
Feb 2025	30	13	3	46
Mar 2025	17	4	3	24
Apr 2025	15	18	2	35
May 2025	28	3	0	31
Jun 2025	38	20	2	60
Jul 2025	23	16	1	40
Aug 2025	44	16	1	61
Sep 2025	27	16	2	45
Oct 2025	24	25	0	49
Nov 2025	25	34	4	63
Dec 2025	7	7	0	14

Latest update: 06 Dec 2025

Download

Article (248 KB)
Full-text XML

Short summary

This study comprehensively investigates the molecular structure impact on SOA formation during the photooxidation of aromatic hydrocarbons under low-NO_x conditions by simultaneously analyzing SOA yield, chemical composition and physical properties. The result suggests that the substitute location, carbon chain length and branching structure exert greater impact on SOA formation than the substitute number. This study improve the understanding of SOA formation from anthropogenic sources.

Impact of molecular structure on secondary organic aerosol formation from aromatic hydrocarbon photooxidation under low-NOx conditions

Viewed

Impact of molecular structure on secondary organic aerosol formation from aromatic hydrocarbon photooxidation under low-NO_x conditions