A new hot-stage microscopy technique for measuring temperature-dependent viscosities of aerosol particles and its application to farnesene secondary  organic aerosol

Kiland, Kristian J.; Marroquin, Kevin L.; Smith, Natalie R.; Xu, Shaun; Nizkorodov, Sergey A.; Bertram, Allan K.

doi:10.5194/amt-15-5545-2022

Articles | Volume 15, issue 19

https://doi.org/10.5194/amt-15-5545-2022

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

https://doi.org/10.5194/amt-15-5545-2022

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

Articles | Volume 15, issue 19

Research article

|

30 Sep 2022

Research article |

| 30 Sep 2022

A new hot-stage microscopy technique for measuring temperature-dependent viscosities of aerosol particles and its application to farnesene secondary organic aerosol

Kristian J. Kiland, Kevin L. Marroquin, Natalie R. Smith, Shaun Xu, Sergey A. Nizkorodov, and Allan K. Bertram

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Total article views: 3,519 (including HTML, PDF, and XML)

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PDF: 957
XML: 98
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BibTeX: 120
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Views and downloads (calculated since 16 May 2022)

Month	HTML	PDF	XML	Total
May 2022	169	37	7	213
Jun 2022	62	16	0	78
Jul 2022	55	10	2	67
Aug 2022	48	18	4	70
Sep 2022	70	25	3	98
Oct 2022	225	67	4	296
Nov 2022	62	18	0	80
Dec 2022	29	15	2	46
Jan 2023	34	10	0	44
Feb 2023	39	23	2	64
Mar 2023	23	18	0	41
Apr 2023	28	15	0	43
May 2023	33	10	2	45
Jun 2023	25	5	1	31
Jul 2023	20	18	0	38
Aug 2023	21	16	3	40
Sep 2023	22	13	2	37
Oct 2023	19	5	2	26
Nov 2023	8	4	0	12
Dec 2023	16	15	0	31
Jan 2024	24	12	0	36
Feb 2024	18	30	1	49
Mar 2024	44	21	3	68
Apr 2024	38	17	4	59
May 2024	38	15	2	55
Jun 2024	73	25	3	101
Jul 2024	64	12	6	82
Aug 2024	38	14	5	57
Sep 2024	86	7	1	94
Oct 2024	43	3	1	47
Nov 2024	12	4	1	17
Dec 2024	15	7	0	22
Jan 2025	26	12	1	39
Feb 2025	36	12	1	49
Mar 2025	22	5	0	27
Apr 2025	25	17	0	42
May 2025	38	14	2	54
Jun 2025	72	17	1	90
Jul 2025	42	11	3	56
Aug 2025	57	22	2	81
Sep 2025	111	27	1	139
Oct 2025	45	31	1	77
Nov 2025	51	57	4	112
Dec 2025	64	34	3	101
Jan 2026	99	28	4	131
Feb 2026	75	25	2	102
Mar 2026	56	27	2	85
Apr 2026	90	31	6	127
May 2026	41	56	2	99
Jun 2026	13	6	2	21

Cumulative views and downloads (calculated since 16 May 2022)

Month	HTML	PDF	XML	Total
May 2022	169	37	7	213
Jun 2022	62	16	0	78
Jul 2022	55	10	2	67
Aug 2022	48	18	4	70
Sep 2022	70	25	3	98
Oct 2022	225	67	4	296
Nov 2022	62	18	0	80
Dec 2022	29	15	2	46
Jan 2023	34	10	0	44
Feb 2023	39	23	2	64
Mar 2023	23	18	0	41
Apr 2023	28	15	0	43
May 2023	33	10	2	45
Jun 2023	25	5	1	31
Jul 2023	20	18	0	38
Aug 2023	21	16	3	40
Sep 2023	22	13	2	37
Oct 2023	19	5	2	26
Nov 2023	8	4	0	12
Dec 2023	16	15	0	31
Jan 2024	24	12	0	36
Feb 2024	18	30	1	49
Mar 2024	44	21	3	68
Apr 2024	38	17	4	59
May 2024	38	15	2	55
Jun 2024	73	25	3	101
Jul 2024	64	12	6	82
Aug 2024	38	14	5	57
Sep 2024	86	7	1	94
Oct 2024	43	3	1	47
Nov 2024	12	4	1	17
Dec 2024	15	7	0	22
Jan 2025	26	12	1	39
Feb 2025	36	12	1	49
Mar 2025	22	5	0	27
Apr 2025	25	17	0	42
May 2025	38	14	2	54
Jun 2025	72	17	1	90
Jul 2025	42	11	3	56
Aug 2025	57	22	2	81
Sep 2025	111	27	1	139
Oct 2025	45	31	1	77
Nov 2025	51	57	4	112
Dec 2025	64	34	3	101
Jan 2026	99	28	4	131
Feb 2026	75	25	2	102
Mar 2026	56	27	2	85
Apr 2026	90	31	6	127
May 2026	41	56	2	99
Jun 2026	13	6	2	21

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Short summary

Information on the viscosity of secondary organic aerosols is needed when making air quality, climate, and atmospheric chemistry predictions. Viscosity depends on temperature, so we developed a new method for measuring the temperature-dependent viscosity of small samples. As an application of the method, we measured the viscosity of farnesene secondary organic aerosol at different temperatures.