Technical note: In situ measurements and  modelling of the oxidation kinetics in films of  a cooking aerosol proxy using a quartz crystal microbalance with dissipation monitoring (QCM-D)

Milsom, Adam; Qi, Shaojun; Mishra, Ashmi; Berkemeier, Thomas; Zhang, Zhenyu; Pfrang, Christian

doi:10.5194/acp-23-10835-2023

Articles | Volume 23, issue 19

https://doi.org/10.5194/acp-23-10835-2023

© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

https://doi.org/10.5194/acp-23-10835-2023

© Author(s) 2023. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 23, issue 19

Technical note

|

04 Oct 2023

Technical note |

| 04 Oct 2023

Technical note: In situ measurements and modelling of the oxidation kinetics in films of a cooking aerosol proxy using a quartz crystal microbalance with dissipation monitoring (QCM-D)

Adam Milsom, Shaojun Qi, Ashmi Mishra, Thomas Berkemeier, Zhenyu Zhang, and Christian Pfrang

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Apr 2025	40	19	2	61
May 2025	62	26	2	90
Jun 2025	55	36	2	93
Jul 2025	32	20	1	53
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Oct 2025	36	36	0	72
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Jan 2026	107	34	15	156
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Cumulative views and downloads (calculated since 12 Jun 2023)

Month	HTML	PDF	XML	Total
Jun 2023	96	36	7	139
Jul 2023	52	21	5	78
Aug 2023	44	7	2	53
Sep 2023	34	16	2	52
Oct 2023	294	26	3	323
Nov 2023	58	8	0	66
Dec 2023	32	12	3	47
Jan 2024	22	8	1	31
Feb 2024	17	10	1	28
Mar 2024	42	12	0	54
Apr 2024	23	9	8	40
May 2024	30	8	2	40
Jun 2024	74	16	4	94
Jul 2024	74	10	6	90
Aug 2024	55	21	7	83
Sep 2024	30	9	2	41
Oct 2024	40	17	7	64
Nov 2024	25	5	1	31
Dec 2024	17	13	0	30
Jan 2025	23	16	2	41
Feb 2025	31	9	0	40
Mar 2025	90	27	0	117
Apr 2025	40	19	2	61
May 2025	62	26	2	90
Jun 2025	55	36	2	93
Jul 2025	32	20	1	53
Aug 2025	83	42	1	126
Sep 2025	142	34	2	178
Oct 2025	36	36	0	72
Nov 2025	84	55	4	143
Dec 2025	80	65	7	152
Jan 2026	107	34	15	156
Feb 2026	113	30	7	150
Mar 2026	64	27	8	99
Apr 2026	77	55	13	145
May 2026	58	25	8	91

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Short summary

Aerosols and films are found indoors and outdoors. Our study measures and models reactions of a cooking aerosol proxy with the atmospheric oxidant ozone relying on a low-cost but sensitive technique based on mass changes and film rigidity. We found that film morphology changed and film rigidity increased with evidence of surface crust formation during ozone exposure. Our modelling results demonstrate clear potential to take this robust method to the field for reaction monitoring.


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