On the evolution of sub- and super-saturated water uptake of secondary organic aerosol in chamber experiments from mixed precursors

Wang, Yu; Voliotis, Aristeidis; Hu, Dawei; Shao, Yunqi; Du, Mao; Chen, Ying; Kleinheins, Judith; Marcolli, Claudia; Alfarra, M. Rami; McFiggans, Gordon

doi:10.5194/acp-22-4149-2022

Articles | Volume 22, issue 6

https://doi.org/10.5194/acp-22-4149-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Special issue:

Simulation chambers as tools in atmospheric research (AMT/ACP/GMD...

https://doi.org/10.5194/acp-22-4149-2022

© Author(s) 2022. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 22, issue 6

Research article

|

31 Mar 2022

Research article |

| 31 Mar 2022

On the evolution of sub- and super-saturated water uptake of secondary organic aerosol in chamber experiments from mixed precursors

Yu Wang, Aristeidis Voliotis, Dawei Hu, Yunqi Shao, Mao Du, Ying Chen, Judith Kleinheins, Claudia Marcolli, M. Rami Alfarra, and Gordon McFiggans

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BibTeX: 126
EndNote: 181

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Month	HTML	PDF	XML	Total
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Aug 2021	184	51	4	239
Sep 2021	121	23	3	147
Oct 2021	68	12	1	81
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Dec 2021	24	14	1	39
Jan 2022	48	16	4	68
Feb 2022	32	20	5	57
Mar 2022	133	32	5	170
Apr 2022	279	50	3	332
May 2022	99	23	1	123
Jun 2022	98	11	1	110
Jul 2022	101	12	0	113
Aug 2022	125	23	0	148
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Oct 2022	72	9	1	82
Nov 2022	85	16	1	102
Dec 2022	70	22	1	93
Jan 2023	38	30	1	69
Feb 2023	32	21	1	54
Mar 2023	33	20	2	55
Apr 2023	31	17	1	49
May 2023	23	12	0	35
Jun 2023	36	18	3	57
Jul 2023	24	22	2	48
Aug 2023	24	17	2	43
Sep 2023	30	10	1	41
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Nov 2023	25	7	1	33
Dec 2023	21	14	1	36
Jan 2024	32	8	0	40
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Jun 2024	66	12	1	79
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Aug 2024	47	11	3	61
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Oct 2024	44	4	1	49
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Dec 2024	27	9	0	36
Jan 2025	35	22	3	60
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Apr 2025	34	26	1	61
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Jun 2025	53	23	9	85
Jul 2025	44	221	1	266
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Sep 2025	112	21	1	134
Oct 2025	39	23	1	63
Nov 2025	65	21	3	89
Dec 2025	50	48	1	99
Jan 2026	68	12	8	88
Feb 2026	65	9	3	77
Mar 2026	62	20	6	88
Apr 2026	75	38	7	120
May 2026	29	10	0	39

Cumulative views and downloads (calculated since 30 Jul 2021)

Month	HTML	PDF	XML	Total
Jul 2021	70	19	1	90
Aug 2021	184	51	4	239
Sep 2021	121	23	3	147
Oct 2021	68	12	1	81
Nov 2021	69	19	0	88
Dec 2021	24	14	1	39
Jan 2022	48	16	4	68
Feb 2022	32	20	5	57
Mar 2022	133	32	5	170
Apr 2022	279	50	3	332
May 2022	99	23	1	123
Jun 2022	98	11	1	110
Jul 2022	101	12	0	113
Aug 2022	125	23	0	148
Sep 2022	87	15	0	102
Oct 2022	72	9	1	82
Nov 2022	85	16	1	102
Dec 2022	70	22	1	93
Jan 2023	38	30	1	69
Feb 2023	32	21	1	54
Mar 2023	33	20	2	55
Apr 2023	31	17	1	49
May 2023	23	12	0	35
Jun 2023	36	18	3	57
Jul 2023	24	22	2	48
Aug 2023	24	17	2	43
Sep 2023	30	10	1	41
Oct 2023	26	7	2	35
Nov 2023	25	7	1	33
Dec 2023	21	14	1	36
Jan 2024	32	8	0	40
Feb 2024	15	15	0	30
Mar 2024	29	20	0	49
Apr 2024	39	22	3	64
May 2024	48	13	4	65
Jun 2024	66	12	1	79
Jul 2024	34	10	0	44
Aug 2024	47	11	3	61
Sep 2024	23	8	1	32
Oct 2024	44	4	1	49
Nov 2024	30	8	1	39
Dec 2024	27	9	0	36
Jan 2025	35	22	3	60
Feb 2025	42	53	0	95
Mar 2025	31	64	4	99
Apr 2025	34	26	1	61
May 2025	49	10	0	59
Jun 2025	53	23	9	85
Jul 2025	44	221	1	266
Aug 2025	79	32	2	113
Sep 2025	112	21	1	134
Oct 2025	39	23	1	63
Nov 2025	65	21	3	89
Dec 2025	50	48	1	99
Jan 2026	68	12	8	88
Feb 2026	65	9	3	77
Mar 2026	62	20	6	88
Apr 2026	75	38	7	120
May 2026	29	10	0	39

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Short summary

Aerosol water uptake plays a key role in atmospheric physicochemical processes. We designed chamber experiments on aerosol water uptake of secondary organic aerosol (SOA) from mixed biogenic and anthropogenic precursors with inorganic seed. Our results highlight this chemical composition influences the reconciliation of the sub- and super-saturated water uptake, providing laboratory evidence for understanding the chemical controls of water uptake of the multi-component aerosol.

On the evolution of sub- and super-saturated water uptake of secondary organic aerosol in chamber experiments from mixed precursors

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