Technical note: Relating functional group measurements to carbon types for improved model–measurement comparisons of organic aerosol composition

Takahama, Satoshi; Ruggeri, Giulia

doi:https://doi.org/10.5194/acp-17-4433-2017

Articles | Volume 17, issue 7

https://doi.org/10.5194/acp-17-4433-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/acp-17-4433-2017

© Author(s) 2017. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 17, issue 7

Technical note

|

03 Apr 2017

Technical note |

| 03 Apr 2017

Technical note: Relating functional group measurements to carbon types for improved model–measurement comparisons of organic aerosol composition

Satoshi Takahama and Giulia Ruggeri

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Jan 2017	10	2	2	14
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Mar 2017	34	6	7	47
Apr 2017	262	67	6	335
May 2017	41	29	2	72
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Aug 2017	20	17	1	38
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Dec 2017	12	8	0	20
Jan 2018	18	13	0	31
Feb 2018	12	8	1	21
Mar 2018	10	6	0	16
Apr 2018	11	6	0	17
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Jun 2018	13	11	1	25
Jul 2018	8	5	0	13
Aug 2018	16	5	0	21
Sep 2018	14	10	0	24
Oct 2018	15	8	1	24
Nov 2018	9	12	0	21
Dec 2018	8	5	2	15
Jan 2019	5	4	1	10
Feb 2019	5	1	1	7
Mar 2019	3	5	0	8
Apr 2019	8	3	0	11
May 2019	12	8	0	20
Jun 2019	4	5	0	9
Jul 2019	6	7	1	14
Aug 2019	2	4	3	9
Sep 2019	9	2	0	11
Oct 2019	3	7	1	11
Nov 2019	11	3	1	15
Dec 2019	4	4	0	8
Jan 2020	9	7	0	16
Feb 2020	8	4	1	13
Mar 2020	5	2	1	8
Apr 2020	1	3	0	4
May 2020	4	5	0	9
Jun 2020	16	9	0	25
Jul 2020	17	13	3	33
Aug 2020	7	10	4	21
Sep 2020	14	1	0	15
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Dec 2020	11	6	1	18
Jan 2021	13	5	0	18
Feb 2021	3	5	0	8
Mar 2021	14	5	0	19
Apr 2021	8	2	0	10
May 2021	7	6	1	14
Jun 2021	6	4	0	10
Jul 2021	3	9	0	12
Aug 2021	1	11	0	12
Sep 2021	12	9	0	21
Oct 2021	7	36	0	43
Nov 2021	10	34	2	46
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Jan 2022	10	6	1	17
Feb 2022	9	6	1	16
Mar 2022	5	5	0	10
Apr 2022	6	2	1	9
May 2022	5	9	1	15
Jun 2022	4	4	0	8
Jul 2022	3	2	0	5
Aug 2022	15	6	1	22
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Oct 2022	7	1	3	11
Nov 2022	17	7	2	26
Dec 2022	10	3	0	13
Jan 2023	4	7	0	11
Feb 2023	10	9	1	20
Mar 2023	15	33	1	49
Apr 2023	1	0	1
May 2023	30	12	0	42
Jun 2023	39	8	1	48
Jul 2023	37	18	0	55
Aug 2023	38	14	6	58
Sep 2023	35	4	0	39
Oct 2023	39	11	4	54
Nov 2023	28	1	1	30
Dec 2023	44	13	2	59
Jan 2024	34	27	0	61
Feb 2024	36	8	0	44
Mar 2024	37	15	2	54
Apr 2024	37	5	3	45
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Jun 2024	12	9	2	23
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Cumulative views and downloads (calculated since 27 Oct 2016)

Month	HTML	PDF	XML	Total
Oct 2016	34	18	1	53
Nov 2016	31	14	1	46
Dec 2016	10	2	0	12
Jan 2017	10	2	2	14
Feb 2017	22	1	3	26
Mar 2017	34	6	7	47
Apr 2017	262	67	6	335
May 2017	41	29	2	72
Jun 2017	34	16	3	53
Jul 2017	33	15	0	48
Aug 2017	20	17	1	38
Sep 2017	22	18	0	40
Oct 2017	15	11	0	26
Nov 2017	16	6	0	22
Dec 2017	12	8	0	20
Jan 2018	18	13	0	31
Feb 2018	12	8	1	21
Mar 2018	10	6	0	16
Apr 2018	11	6	0	17
May 2018	13	8	0	21
Jun 2018	13	11	1	25
Jul 2018	8	5	0	13
Aug 2018	16	5	0	21
Sep 2018	14	10	0	24
Oct 2018	15	8	1	24
Nov 2018	9	12	0	21
Dec 2018	8	5	2	15
Jan 2019	5	4	1	10
Feb 2019	5	1	1	7
Mar 2019	3	5	0	8
Apr 2019	8	3	0	11
May 2019	12	8	0	20
Jun 2019	4	5	0	9
Jul 2019	6	7	1	14
Aug 2019	2	4	3	9
Sep 2019	9	2	0	11
Oct 2019	3	7	1	11
Nov 2019	11	3	1	15
Dec 2019	4	4	0	8
Jan 2020	9	7	0	16
Feb 2020	8	4	1	13
Mar 2020	5	2	1	8
Apr 2020	1	3	0	4
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Jul 2020	17	13	3	33
Aug 2020	7	10	4	21
Sep 2020	14	1	0	15
Oct 2020	10	8	0	18
Nov 2020	6	9	0	15
Dec 2020	11	6	1	18
Jan 2021	13	5	0	18
Feb 2021	3	5	0	8
Mar 2021	14	5	0	19
Apr 2021	8	2	0	10
May 2021	7	6	1	14
Jun 2021	6	4	0	10
Jul 2021	3	9	0	12
Aug 2021	1	11	0	12
Sep 2021	12	9	0	21
Oct 2021	7	36	0	43
Nov 2021	10	34	2	46
Dec 2021	9	8	0	17
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Feb 2022	9	6	1	16
Mar 2022	5	5	0	10
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May 2022	5	9	1	15
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Jul 2022	3	2	0	5
Aug 2022	15	6	1	22
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Jan 2023	4	7	0	11
Feb 2023	10	9	1	20
Mar 2023	15	33	1	49
Apr 2023	1	0	1
May 2023	30	12	0	42
Jun 2023	39	8	1	48
Jul 2023	37	18	0	55
Aug 2023	38	14	6	58
Sep 2023	35	4	0	39
Oct 2023	39	11	4	54
Nov 2023	28	1	1	30
Dec 2023	44	13	2	59
Jan 2024	34	27	0	61
Feb 2024	36	8	0	44
Mar 2024	37	15	2	54
Apr 2024	37	5	3	45
May 2024	12	12	0	24
Jun 2024	12	9	2	23
Jul 2024	19	11	3	33

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Total article views: 2,570 (including HTML, PDF, and XML) Thereof 2,555 with geography defined and 15 with unknown origin.

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Short summary

We formalize a method for classifying carbon atoms in organic aerosols according to their functionalization. This conceptual approach allows estimation of carbon mass from functional group measurements, which previously required a series of assumptions that were not well constrained. We describe how the proposed strategy can lead to better comparisons among functional group measurements, chemically explicit model simulations, and other measurements.

Technical note: Relating functional group measurements to carbon types for improved model–measurement comparisons of organic aerosol composition

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Cited

7 citations as recorded by crossref.

7 citations as recorded by crossref.


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