Secondary organic aerosol yields from the oxidation of benzyl alcohol

Charan, Sophia M.; Buenconsejo, Reina S.; Seinfeld, John H.

doi:https://doi.org/10.5194/acp-20-13167-2020

Articles | Volume 20, issue 21

https://doi.org/10.5194/acp-20-13167-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/acp-20-13167-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 20, issue 21

Research article

|

10 Nov 2020

Research article |

| 10 Nov 2020

Secondary organic aerosol yields from the oxidation of benzyl alcohol

Sophia M. Charan, Reina S. Buenconsejo, and John H. Seinfeld

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Total article views: 4,028 (including HTML, PDF, and XML)

HTML	PDF	XML	Total	BibTeX	EndNote
3,254	735	39	4,028	32	44

HTML: 3,254
PDF: 735
XML: 39
Total: 4,028
BibTeX: 32
EndNote: 44

Views and downloads (calculated since 16 Jun 2020)

Month	HTML	PDF	XML	Total
Jun 2020	126	41	3	170
Jul 2020	56	18	2	76
Aug 2020	16	13	3	32
Sep 2020	10	6	0	16
Oct 2020	19	8	0	27
Nov 2020	103	26	2	131
Dec 2020	136	20	0	156
Jan 2021	81	12	0	93
Feb 2021	73	9	0	82
Mar 2021	74	15	0	89
Apr 2021	90	12	0	102
May 2021	85	19	0	104
Jun 2021	85	17	0	102
Jul 2021	82	13	2	97
Aug 2021	73	35	0	108
Sep 2021	78	20	0	98
Oct 2021	83	42	0	125
Nov 2021	84	45	1	130
Dec 2021	68	18	0	86
Jan 2022	74	19	0	93
Feb 2022	57	15	1	73
Mar 2022	66	24	1	91
Apr 2022	60	15	2	77
May 2022	50	11	0	61
Jun 2022	54	7	0	61
Jul 2022	85	14	0	99
Aug 2022	86	15	0	101
Sep 2022	42	13	0	55
Oct 2022	61	15	1	77
Nov 2022	69	14	1	84
Dec 2022	56	9	3	68
Jan 2023	74	13	0	87
Feb 2023	77	16	0	93
Mar 2023	69	11	1	81
Apr 2023	56	10	1	67
May 2023	42	8	0	50
Jun 2023	46	3	1	50
Jul 2023	59	12	1	72
Aug 2023	53	12	4	69
Sep 2023	38	6	0	44
Oct 2023	99	14	1	114
Nov 2023	30	5	0	35
Dec 2023	57	13	2	72
Jan 2024	207	8	2	217
Feb 2024	49	13	0	62
Mar 2024	69	21	1	91
Apr 2024	47	10	3	60

Cumulative views and downloads (calculated since 16 Jun 2020)

Month	HTML	PDF	XML	Total
Jun 2020	126	41	3	170
Jul 2020	56	18	2	76
Aug 2020	16	13	3	32
Sep 2020	10	6	0	16
Oct 2020	19	8	0	27
Nov 2020	103	26	2	131
Dec 2020	136	20	0	156
Jan 2021	81	12	0	93
Feb 2021	73	9	0	82
Mar 2021	74	15	0	89
Apr 2021	90	12	0	102
May 2021	85	19	0	104
Jun 2021	85	17	0	102
Jul 2021	82	13	2	97
Aug 2021	73	35	0	108
Sep 2021	78	20	0	98
Oct 2021	83	42	0	125
Nov 2021	84	45	1	130
Dec 2021	68	18	0	86
Jan 2022	74	19	0	93
Feb 2022	57	15	1	73
Mar 2022	66	24	1	91
Apr 2022	60	15	2	77
May 2022	50	11	0	61
Jun 2022	54	7	0	61
Jul 2022	85	14	0	99
Aug 2022	86	15	0	101
Sep 2022	42	13	0	55
Oct 2022	61	15	1	77
Nov 2022	69	14	1	84
Dec 2022	56	9	3	68
Jan 2023	74	13	0	87
Feb 2023	77	16	0	93
Mar 2023	69	11	1	81
Apr 2023	56	10	1	67
May 2023	42	8	0	50
Jun 2023	46	3	1	50
Jul 2023	59	12	1	72
Aug 2023	53	12	4	69
Sep 2023	38	6	0	44
Oct 2023	99	14	1	114
Nov 2023	30	5	0	35
Dec 2023	57	13	2	72
Jan 2024	207	8	2	217
Feb 2024	49	13	0	62
Mar 2024	69	21	1	91
Apr 2024	47	10	3	60

Viewed (geographical distribution)

Total article views: 4,028 (including HTML, PDF, and XML) Thereof 4,307 with geography defined and -279 with unknown origin.

Country	#	Views	%

1

1

Cited

Latest update: 24 Apr 2024

Short summary

In urban areas, the emissions from volatile chemical products may be responsible for the formation of as much particulate matter as motor vehicles. Since exposure to particulate matter is a public health crisis, understanding its formation is critical. In this work, we investigate the secondary organic aerosol formation potential of benzyl alcohol, an important compound that is representative of some of these new emission sources, and find that more particulate matter forms than is expected.

Secondary organic aerosol yields from the oxidation of benzyl alcohol

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Cited

11 citations as recorded by crossref.

11 citations as recorded by crossref.


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