Secondary organic aerosol formation from the photooxidation of isoprene, 1,3-butadiene, and 2,3-dimethyl-1,3-butadiene under high NO<sub>x</sub> conditions

Sato, K.; Nakao, S.; Clark, C. H.; Qi, L.; Cocker III, D. R.

doi:10.5194/acp-11-7301-2011

Articles | Volume 11, issue 14

https://doi.org/10.5194/acp-11-7301-2011

© Author(s) 2011. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/acp-11-7301-2011

© Author(s) 2011. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 11, issue 14

Research article

|

25 Jul 2011

Research article |

| 25 Jul 2011

Secondary organic aerosol formation from the photooxidation of isoprene, 1,3-butadiene, and 2,3-dimethyl-1,3-butadiene under high NO_x conditions

K. Sato, S. Nakao, C. H. Clark, L. Qi, and D. R. Cocker III

Viewed

Total article views: 6,861 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
2,889	3,786	186	6,861	202	183

HTML: 2,889
PDF: 3,786
XML: 186
Total: 6,861
BibTeX: 202
EndNote: 183

Views and downloads (calculated since 01 Feb 2013, article published on 07 Feb 2011)

Month	HTML	PDF	XML	Total
Feb 2013	24	32	8	64
Mar 2013	14	27	1	42
Apr 2013	8	19	1	28
May 2013	14	32	0	46
Jun 2013	13	23	0	36
Jul 2013	8	21	0	29
Aug 2013	13	15	1	29
Sep 2013	14	34	1	49
Oct 2013	28	35	12	75
Nov 2013	8	14	0	22
Dec 2013	25	18	3	46
Jan 2014	22	43	3	68
Feb 2014	16	28	6	50
Mar 2014	39	28	1	68
Apr 2014	51	384	1	436
May 2014	13	346	0	359
Jun 2014	19	26	1	46
Jul 2014	32	32	0	64
Aug 2014	15	32	1	48
Sep 2014	13	40	1	54
Oct 2014	15	33	0	48
Nov 2014	13	19	0	32
Dec 2014	9	38	1	48
Jan 2015	12	26	0	38
Feb 2015	14	16	0	30
Mar 2015	22	20	1	43
Apr 2015	29	16	1	46
May 2015	8	13	1	22
Jun 2015	32	14	3	49
Jul 2015	24	10	2	36
Aug 2015	16	17	1	34
Sep 2015	8	6	0	14
Oct 2015	27	10	0	37
Nov 2015	36	17	6	59
Dec 2015	15	19	2	36
Jan 2016	25	10	1	36
Feb 2016	21	16	1	38
Mar 2016	27	14	0	41
Apr 2016	17	13	0	30
May 2016	13	20	1	34
Jun 2016	11	10	0	21
Jul 2016	12	12	3	27
Aug 2016	12	12	0	24
Sep 2016	18	5	0	23
Oct 2016	13	10	0	23
Nov 2016	12	13	0	25
Dec 2016	12	14	1	27
Jan 2017	18	9	1	28
Feb 2017	33	5	2	40
Mar 2017	40	9	3	52
Apr 2017	31	8	1	40
May 2017	39	12	3	54
Jun 2017	37	10	1	48
Jul 2017	21	11	1	33
Aug 2017	10	9	1	20
Sep 2017	25	16	1	42
Oct 2017	11	22	0	33
Nov 2017	18	18	0	36
Dec 2017	14	21	0	35
Jan 2018	18	20	1	39
Feb 2018	19	12	0	31
Mar 2018	22	26	2	50
Apr 2018	16	39	1	56
May 2018	21	71	4	96
Jun 2018	19	67	0	86
Jul 2018	17	69	0	86
Aug 2018	12	63	0	75
Sep 2018	12	61	0	73
Oct 2018	18	79	1	98
Nov 2018	14	69	0	83
Dec 2018	9	53	1	63
Jan 2019	8	60	1	69
Feb 2019	13	54	0	67
Mar 2019	12	67	0	79
Apr 2019	9	75	0	84
May 2019	18	76	1	95
Jun 2019	7	53	0	60
Jul 2019	13	74	0	87
Aug 2019	9	73	0	82
Sep 2019	4	51	1	56
Oct 2019	8	9	2	19
Nov 2019	11	8	0	19
Dec 2019	8	7	0	15
Jan 2020	68	4	0	72
Feb 2020	49	6	1	56
Mar 2020	58	2	0	60
Apr 2020	11	4	0	15
May 2020	8	6	1	15
Jun 2020	18	4	0	22
Jul 2020	21	8	2	31
Aug 2020	12	7	5	24
Sep 2020	2	6	1	9
Oct 2020	7	7	2	16
Nov 2020	11	1	12
Dec 2020	13	5	0	18
Jan 2021	19	7	0	26
Feb 2021	12	7	0	19
Mar 2021	8	7	0	15
Apr 2021	8	16	0	24
May 2021	5	3	1	9
Jun 2021	7	8	0	15
Jul 2021	6	10	0	16
Aug 2021	5	7	0	12
Sep 2021	21	10	1	32
Oct 2021	9	31	1	41
Nov 2021	19	32	2	53
Dec 2021	18	16	2	36
Jan 2022	23	24	7	54
Feb 2022	14	10	6	30
Mar 2022	13	9	1	23
Apr 2022	4	4	1	9
May 2022	6	5	0	11
Jun 2022	3	0	3
Jul 2022	4	4	1	9
Aug 2022	12	1	0	13
Sep 2022	8	5	0	13
Oct 2022	17	10	1	28
Nov 2022	18	7	0	25
Dec 2022	16	8	2	26
Jan 2023	12	18	1	31
Feb 2023	14	5	0	19
Mar 2023	10	9	1	20
Apr 2023	10	7	0	17
May 2023	34	16	1	51
Jun 2023	37	5	1	43
Jul 2023	36	9	0	45
Aug 2023	37	6	2	45
Sep 2023	38	9	2	49
Oct 2023	42	5	1	48
Nov 2023	29	3	1	33
Dec 2023	39	5	0	44
Jan 2024	36	7	0	43
Feb 2024	37	15	0	52
Mar 2024	45	13	3	61
Apr 2024	45	9	5	59
May 2024	14	8	4	26
Jun 2024	15	14	1	30
Jul 2024	11	16	2	29
Aug 2024	8	21	1	30
Sep 2024	7	4	0	11
Oct 2024	19	7	0	26
Nov 2024	11	5	2	18
Dec 2024	10	10	1	21
Jan 2025	24	35	2	61
Feb 2025	19	11	4	34
Mar 2025	16	20	3	39
Apr 2025	7	19	1	27
May 2025	22	13	1	36
Jun 2025	48	17	0	65
Jul 2025	23	22	2	47
Aug 2025	30	28	1	59
Sep 2025	34	18	3	55
Oct 2025	15	15	1	31
Nov 2025	26	24	5	55

Cumulative views and downloads (calculated since 01 Feb 2013, article published on 07 Feb 2011)

Month	HTML	PDF	XML	Total
Feb 2013	24	32	8	64
Mar 2013	14	27	1	42
Apr 2013	8	19	1	28
May 2013	14	32	0	46
Jun 2013	13	23	0	36
Jul 2013	8	21	0	29
Aug 2013	13	15	1	29
Sep 2013	14	34	1	49
Oct 2013	28	35	12	75
Nov 2013	8	14	0	22
Dec 2013	25	18	3	46
Jan 2014	22	43	3	68
Feb 2014	16	28	6	50
Mar 2014	39	28	1	68
Apr 2014	51	384	1	436
May 2014	13	346	0	359
Jun 2014	19	26	1	46
Jul 2014	32	32	0	64
Aug 2014	15	32	1	48
Sep 2014	13	40	1	54
Oct 2014	15	33	0	48
Nov 2014	13	19	0	32
Dec 2014	9	38	1	48
Jan 2015	12	26	0	38
Feb 2015	14	16	0	30
Mar 2015	22	20	1	43
Apr 2015	29	16	1	46
May 2015	8	13	1	22
Jun 2015	32	14	3	49
Jul 2015	24	10	2	36
Aug 2015	16	17	1	34
Sep 2015	8	6	0	14
Oct 2015	27	10	0	37
Nov 2015	36	17	6	59
Dec 2015	15	19	2	36
Jan 2016	25	10	1	36
Feb 2016	21	16	1	38
Mar 2016	27	14	0	41
Apr 2016	17	13	0	30
May 2016	13	20	1	34
Jun 2016	11	10	0	21
Jul 2016	12	12	3	27
Aug 2016	12	12	0	24
Sep 2016	18	5	0	23
Oct 2016	13	10	0	23
Nov 2016	12	13	0	25
Dec 2016	12	14	1	27
Jan 2017	18	9	1	28
Feb 2017	33	5	2	40
Mar 2017	40	9	3	52
Apr 2017	31	8	1	40
May 2017	39	12	3	54
Jun 2017	37	10	1	48
Jul 2017	21	11	1	33
Aug 2017	10	9	1	20
Sep 2017	25	16	1	42
Oct 2017	11	22	0	33
Nov 2017	18	18	0	36
Dec 2017	14	21	0	35
Jan 2018	18	20	1	39
Feb 2018	19	12	0	31
Mar 2018	22	26	2	50
Apr 2018	16	39	1	56
May 2018	21	71	4	96
Jun 2018	19	67	0	86
Jul 2018	17	69	0	86
Aug 2018	12	63	0	75
Sep 2018	12	61	0	73
Oct 2018	18	79	1	98
Nov 2018	14	69	0	83
Dec 2018	9	53	1	63
Jan 2019	8	60	1	69
Feb 2019	13	54	0	67
Mar 2019	12	67	0	79
Apr 2019	9	75	0	84
May 2019	18	76	1	95
Jun 2019	7	53	0	60
Jul 2019	13	74	0	87
Aug 2019	9	73	0	82
Sep 2019	4	51	1	56
Oct 2019	8	9	2	19
Nov 2019	11	8	0	19
Dec 2019	8	7	0	15
Jan 2020	68	4	0	72
Feb 2020	49	6	1	56
Mar 2020	58	2	0	60
Apr 2020	11	4	0	15
May 2020	8	6	1	15
Jun 2020	18	4	0	22
Jul 2020	21	8	2	31
Aug 2020	12	7	5	24
Sep 2020	2	6	1	9
Oct 2020	7	7	2	16
Nov 2020	11	1	12
Dec 2020	13	5	0	18
Jan 2021	19	7	0	26
Feb 2021	12	7	0	19
Mar 2021	8	7	0	15
Apr 2021	8	16	0	24
May 2021	5	3	1	9
Jun 2021	7	8	0	15
Jul 2021	6	10	0	16
Aug 2021	5	7	0	12
Sep 2021	21	10	1	32
Oct 2021	9	31	1	41
Nov 2021	19	32	2	53
Dec 2021	18	16	2	36
Jan 2022	23	24	7	54
Feb 2022	14	10	6	30
Mar 2022	13	9	1	23
Apr 2022	4	4	1	9
May 2022	6	5	0	11
Jun 2022	3	0	3
Jul 2022	4	4	1	9
Aug 2022	12	1	0	13
Sep 2022	8	5	0	13
Oct 2022	17	10	1	28
Nov 2022	18	7	0	25
Dec 2022	16	8	2	26
Jan 2023	12	18	1	31
Feb 2023	14	5	0	19
Mar 2023	10	9	1	20
Apr 2023	10	7	0	17
May 2023	34	16	1	51
Jun 2023	37	5	1	43
Jul 2023	36	9	0	45
Aug 2023	37	6	2	45
Sep 2023	38	9	2	49
Oct 2023	42	5	1	48
Nov 2023	29	3	1	33
Dec 2023	39	5	0	44
Jan 2024	36	7	0	43
Feb 2024	37	15	0	52
Mar 2024	45	13	3	61
Apr 2024	45	9	5	59
May 2024	14	8	4	26
Jun 2024	15	14	1	30
Jul 2024	11	16	2	29
Aug 2024	8	21	1	30
Sep 2024	7	4	0	11
Oct 2024	19	7	0	26
Nov 2024	11	5	2	18
Dec 2024	10	10	1	21
Jan 2025	24	35	2	61
Feb 2025	19	11	4	34
Mar 2025	16	20	3	39
Apr 2025	7	19	1	27
May 2025	22	13	1	36
Jun 2025	48	17	0	65
Jul 2025	23	22	2	47
Aug 2025	30	28	1	59
Sep 2025	34	18	3	55
Oct 2025	15	15	1	31
Nov 2025	26	24	5	55

Latest update: 23 Nov 2025

Secondary organic aerosol formation from the photooxidation of isoprene, 1,3-butadiene, and 2,3-dimethyl-1,3-butadiene under high NOx conditions

Viewed

Secondary organic aerosol formation from the photooxidation of isoprene, 1,3-butadiene, and 2,3-dimethyl-1,3-butadiene under high NO_x conditions