Development of a gas chromatography system coupled to a metal-oxide semiconductor (MOS) sensor, with compensation of the temperature effects on the column for the measurement of ethene

Koehne, Maximilian; Schmidt, Christopher; Singh, Satnam; Grasskamp, Andreas; Sauerwald, Tilman; Zeh, Gina

doi:10.5194/jsss-12-215-2023

Articles | Volume 12, issue 2

https://doi.org/10.5194/jsss-12-215-2023

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

https://doi.org/10.5194/jsss-12-215-2023

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

Articles | Volume 12, issue 2

Regular research article

|

08 Aug 2023

Regular research article |

| 08 Aug 2023

Development of a gas chromatography system coupled to a metal-oxide semiconductor (MOS) sensor, with compensation of the temperature effects on the column for the measurement of ethene

Maximilian Koehne, Christopher Schmidt, Satnam Singh, Andreas Grasskamp, Tilman Sauerwald, and Gina Zeh

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Jun 2024	40	10	2	52
Jul 2024	33	9	2	44
Aug 2024	45	8	5	58
Sep 2024	24	1	4	29
Oct 2024	15	8	1	24
Nov 2024	9	4	1	14
Dec 2024	9	6	0	15
Jan 2025	10	5	0	15
Feb 2025	20	2	1	23
Mar 2025	23	15	3	41
Apr 2025	31	5	0	36
May 2025	23	5	1	29
Jun 2025	27	15	0	42
Jul 2025	30	16	0	46
Aug 2025	30	6	2	38
Sep 2025	34	10	0	44
Oct 2025	27	10	3	40
Nov 2025	12	4	0	16

Cumulative views and downloads (calculated since 08 Aug 2023)

Month	HTML	PDF	XML	Total
Aug 2023	131	34	9	174
Sep 2023	43	12	1	56
Oct 2023	42	17	5	64
Nov 2023	15	5	1	21
Dec 2023	40	9	4	53
Jan 2024	24	13	0	37
Feb 2024	11	12	0	23
Mar 2024	12	15	1	28
Apr 2024	19	5	2	26
May 2024	11	4	1	16
Jun 2024	40	10	2	52
Jul 2024	33	9	2	44
Aug 2024	45	8	5	58
Sep 2024	24	1	4	29
Oct 2024	15	8	1	24
Nov 2024	9	4	1	14
Dec 2024	9	6	0	15
Jan 2025	10	5	0	15
Feb 2025	20	2	1	23
Mar 2025	23	15	3	41
Apr 2025	31	5	0	36
May 2025	23	5	1	29
Jun 2025	27	15	0	42
Jul 2025	30	16	0	46
Aug 2025	30	6	2	38
Sep 2025	34	10	0	44
Oct 2025	27	10	3	40
Nov 2025	12	4	0	16

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Short summary

Continuous inspection of gases is increasingly important for process monitoring, like fruit ripening. This involves the detection of individual markers in complex gas mixtures, e.g., to indicate spoilage. Unfortunately, classical techniques are lab-bound and resource-intensive. Hence, small, low-cost systems are being developed. Thereto, we propose a sensor system, containing a non-heated gas separation unit and gas sensors combined with a compensation of surrounding temperature effects.


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