Analysis of secondary organic aerosol formation and aging using positive matrix factorization of high-resolution aerosol mass spectra: application to the dodecane low-NO<sub>x</sub> system

Craven, J. S.; Yee, L. D.; Ng, N. L.; Canagaratna, M. R.; Loza, C. L.; Schilling, K. A.; Yatavelli, R. L. N.; Thornton, J. A.; Ziemann, P. J.; Flagan, R. C.; Seinfeld, J. H.

doi:10.5194/acp-12-11795-2012

Articles | Volume 12, issue 24

https://doi.org/10.5194/acp-12-11795-2012

© Author(s) 2012. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/acp-12-11795-2012

© Author(s) 2012. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 12, issue 24

Research article

|

17 Dec 2012

Research article |

| 17 Dec 2012

Analysis of secondary organic aerosol formation and aging using positive matrix factorization of high-resolution aerosol mass spectra: application to the dodecane low-NO_x system

J. S. Craven, L. D. Yee, N. L. Ng, M. R. Canagaratna, C. L. Loza, K. A. Schilling, R. L. N. Yatavelli, J. A. Thornton, P. J. Ziemann, R. C. Flagan, and J. H. Seinfeld

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Total article views: 5,751 (including HTML, PDF, and XML)

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EndNote: 199

Views and downloads (calculated since 01 Feb 2013, article published on 06 Jul 2012)

Month	HTML	PDF	XML	Total
Feb 2013	39	91	8	138
Mar 2013	23	43	2	68
Apr 2013	30	52	2	84
May 2013	30	43	2	75
Jun 2013	19	41	2	62
Jul 2013	20	40	1	61
Aug 2013	27	25	5	57
Sep 2013	28	44	0	72
Oct 2013	41	60	3	104
Nov 2013	21	53	3	77
Dec 2013	22	24	2	48
Jan 2014	30	36	3	69
Feb 2014	30	39	5	74
Mar 2014	50	34	1	85
Apr 2014	33	34	3	70
May 2014	29	40	1	70
Jun 2014	14	45	3	62
Jul 2014	16	36	0	52
Aug 2014	10	28	1	39
Sep 2014	17	36	3	56
Oct 2014	10	49	1	60
Nov 2014	11	42	1	54
Dec 2014	9	38	2	49
Jan 2015	11	21	1	33
Feb 2015	12	23	1	36
Mar 2015	19	6	1	26
Apr 2015	17	9	0	26
May 2015	15	10	0	25
Jun 2015	36	6	3	45
Jul 2015	33	11	2	46
Aug 2015	13	12	3	28
Sep 2015	5	5	0	10
Oct 2015	25	4	13	42
Nov 2015	37	5	4	46
Dec 2015	12	19	2	33
Jan 2016	41	22	3	66
Feb 2016	22	15	0	37
Mar 2016	100	7	0	107
Apr 2016	16	14	0	30
May 2016	15	9	0	24
Jun 2016	13	2	0	15
Jul 2016	16	3	3	22
Aug 2016	7	6	0	13
Sep 2016	8	2	0	10
Oct 2016	13	4	0	17
Nov 2016	6	15	1	22
Dec 2016	11	15	0	26
Jan 2017	18	25	0	43
Feb 2017	12	17	0	29
Mar 2017	18	31	1	50
Apr 2017	25	40	0	65
May 2017	31	13	0	44
Jun 2017	15	7	1	23
Jul 2017	16	4	0	20
Aug 2017	11	13	0	24
Sep 2017	8	9	1	18
Oct 2017	9	15	0	24
Nov 2017	7	9	0	16
Dec 2017	8	10	0	18
Jan 2018	8	16	0	24
Feb 2018	4	6	0	10
Mar 2018	9	10	0	19
Apr 2018	7	10	0	17
May 2018	10	9	0	19
Jun 2018	10	15	2	27
Jul 2018	7	10	0	17
Aug 2018	10	8	0	18
Sep 2018	14	11	0	25
Oct 2018	19	15	3	37
Nov 2018	17	15	0	32
Dec 2018	10	7	0	17
Jan 2019	6	5	2	13
Feb 2019	9	7	0	16
Mar 2019	4	7	0	11
Apr 2019	5	4	0	9
May 2019	5	7	0	12
Jun 2019	7	9	0	16
Jul 2019	6	6	0	12
Aug 2019	6	6	2	14
Sep 2019	10	5	0	15
Oct 2019	7	13	1	21
Nov 2019	8	5	0	13
Dec 2019	3	3	0	6
Jan 2020	13	4	0	17
Feb 2020	4	2	0	6
Mar 2020	2	7	0	9
Apr 2020	5	6	0	11
May 2020	5	3	0	8
Jun 2020	25	3	0	28
Jul 2020	24	9	5	38
Aug 2020	16	3	6	25
Sep 2020	11	7	0	18
Oct 2020	8	5	1	14
Nov 2020	7	4	1	12
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Jan 2021	18	7	0	25
Feb 2021	6	6	0	12
Mar 2021	9	11	0	20
Apr 2021	7	8	1	16
May 2021	6	11	1	18
Jun 2021	8	9	0	17
Jul 2021	12	20	0	32
Aug 2021	5	2	0	7
Sep 2021	11	7	0	18
Oct 2021	11	36	1	48
Nov 2021	8	25	0	33
Dec 2021	11	5	0	16
Jan 2022	9	11	1	21
Feb 2022	9	6	0	15
Mar 2022	13	6	0	19
Apr 2022	10	8	1	19
May 2022	4	2	0	6
Jun 2022	14	7	1	22
Jul 2022	5	5	0	10
Aug 2022	16	10	0	26
Sep 2022	7	2	0	9
Oct 2022	6	9	2	17
Nov 2022	7	12	0	19
Dec 2022	17	12	2	31
Jan 2023	17	12	2	31
Feb 2023	11	8	0	19
Mar 2023	22	11	1	34
Apr 2023	9	9	0	18
May 2023	35	13	0	48
Jun 2023	33	3	1	37
Jul 2023	41	10	0	51
Aug 2023	40	12	2	54
Sep 2023	39	6	0	45
Oct 2023	46	9	1	56
Nov 2023	28	4	0	32
Dec 2023	49	5	2	56
Jan 2024	38	4	0	42
Feb 2024	37	10	0	47
Mar 2024	41	29	2	72
Apr 2024	40	23	6	69
May 2024	35	18	0	53
Jun 2024	42	12	1	55
Jul 2024	39	12	1	52
Aug 2024	47	5	2	54
Sep 2024	39	12	3	54
Oct 2024	42	8	0	50
Nov 2024	33	5	2	40
Dec 2024	35	13	0	48
Jan 2025	45	10	1	56
Feb 2025	39	9	4	52
Mar 2025	38	11	3	52
Apr 2025	68	19	1	88
May 2025	64	7	2	73
Jun 2025	68	19	0	87
Jul 2025	56	13	4	73
Aug 2025	61	20	1	82
Sep 2025	105	11	4	120
Oct 2025	55	12	0	67
Nov 2025	28	13	2	43

Cumulative views and downloads (calculated since 01 Feb 2013, article published on 06 Jul 2012)

Month	HTML	PDF	XML	Total
Feb 2013	39	91	8	138
Mar 2013	23	43	2	68
Apr 2013	30	52	2	84
May 2013	30	43	2	75
Jun 2013	19	41	2	62
Jul 2013	20	40	1	61
Aug 2013	27	25	5	57
Sep 2013	28	44	0	72
Oct 2013	41	60	3	104
Nov 2013	21	53	3	77
Dec 2013	22	24	2	48
Jan 2014	30	36	3	69
Feb 2014	30	39	5	74
Mar 2014	50	34	1	85
Apr 2014	33	34	3	70
May 2014	29	40	1	70
Jun 2014	14	45	3	62
Jul 2014	16	36	0	52
Aug 2014	10	28	1	39
Sep 2014	17	36	3	56
Oct 2014	10	49	1	60
Nov 2014	11	42	1	54
Dec 2014	9	38	2	49
Jan 2015	11	21	1	33
Feb 2015	12	23	1	36
Mar 2015	19	6	1	26
Apr 2015	17	9	0	26
May 2015	15	10	0	25
Jun 2015	36	6	3	45
Jul 2015	33	11	2	46
Aug 2015	13	12	3	28
Sep 2015	5	5	0	10
Oct 2015	25	4	13	42
Nov 2015	37	5	4	46
Dec 2015	12	19	2	33
Jan 2016	41	22	3	66
Feb 2016	22	15	0	37
Mar 2016	100	7	0	107
Apr 2016	16	14	0	30
May 2016	15	9	0	24
Jun 2016	13	2	0	15
Jul 2016	16	3	3	22
Aug 2016	7	6	0	13
Sep 2016	8	2	0	10
Oct 2016	13	4	0	17
Nov 2016	6	15	1	22
Dec 2016	11	15	0	26
Jan 2017	18	25	0	43
Feb 2017	12	17	0	29
Mar 2017	18	31	1	50
Apr 2017	25	40	0	65
May 2017	31	13	0	44
Jun 2017	15	7	1	23
Jul 2017	16	4	0	20
Aug 2017	11	13	0	24
Sep 2017	8	9	1	18
Oct 2017	9	15	0	24
Nov 2017	7	9	0	16
Dec 2017	8	10	0	18
Jan 2018	8	16	0	24
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May 2018	10	9	0	19
Jun 2018	10	15	2	27
Jul 2018	7	10	0	17
Aug 2018	10	8	0	18
Sep 2018	14	11	0	25
Oct 2018	19	15	3	37
Nov 2018	17	15	0	32
Dec 2018	10	7	0	17
Jan 2019	6	5	2	13
Feb 2019	9	7	0	16
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Jun 2019	7	9	0	16
Jul 2019	6	6	0	12
Aug 2019	6	6	2	14
Sep 2019	10	5	0	15
Oct 2019	7	13	1	21
Nov 2019	8	5	0	13
Dec 2019	3	3	0	6
Jan 2020	13	4	0	17
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Apr 2020	5	6	0	11
May 2020	5	3	0	8
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Jul 2020	24	9	5	38
Aug 2020	16	3	6	25
Sep 2020	11	7	0	18
Oct 2020	8	5	1	14
Nov 2020	7	4	1	12
Dec 2020	11	3	0	14
Jan 2021	18	7	0	25
Feb 2021	6	6	0	12
Mar 2021	9	11	0	20
Apr 2021	7	8	1	16
May 2021	6	11	1	18
Jun 2021	8	9	0	17
Jul 2021	12	20	0	32
Aug 2021	5	2	0	7
Sep 2021	11	7	0	18
Oct 2021	11	36	1	48
Nov 2021	8	25	0	33
Dec 2021	11	5	0	16
Jan 2022	9	11	1	21
Feb 2022	9	6	0	15
Mar 2022	13	6	0	19
Apr 2022	10	8	1	19
May 2022	4	2	0	6
Jun 2022	14	7	1	22
Jul 2022	5	5	0	10
Aug 2022	16	10	0	26
Sep 2022	7	2	0	9
Oct 2022	6	9	2	17
Nov 2022	7	12	0	19
Dec 2022	17	12	2	31
Jan 2023	17	12	2	31
Feb 2023	11	8	0	19
Mar 2023	22	11	1	34
Apr 2023	9	9	0	18
May 2023	35	13	0	48
Jun 2023	33	3	1	37
Jul 2023	41	10	0	51
Aug 2023	40	12	2	54
Sep 2023	39	6	0	45
Oct 2023	46	9	1	56
Nov 2023	28	4	0	32
Dec 2023	49	5	2	56
Jan 2024	38	4	0	42
Feb 2024	37	10	0	47
Mar 2024	41	29	2	72
Apr 2024	40	23	6	69
May 2024	35	18	0	53
Jun 2024	42	12	1	55
Jul 2024	39	12	1	52
Aug 2024	47	5	2	54
Sep 2024	39	12	3	54
Oct 2024	42	8	0	50
Nov 2024	33	5	2	40
Dec 2024	35	13	0	48
Jan 2025	45	10	1	56
Feb 2025	39	9	4	52
Mar 2025	38	11	3	52
Apr 2025	68	19	1	88
May 2025	64	7	2	73
Jun 2025	68	19	0	87
Jul 2025	56	13	4	73
Aug 2025	61	20	1	82
Sep 2025	105	11	4	120
Oct 2025	55	12	0	67
Nov 2025	28	13	2	43

Latest update: 16 Nov 2025

Analysis of secondary organic aerosol formation and aging using positive matrix factorization of high-resolution aerosol mass spectra: application to the dodecane low-NOx system

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Analysis of secondary organic aerosol formation and aging using positive matrix factorization of high-resolution aerosol mass spectra: application to the dodecane low-NO_x system