Optimization of soot deposition by high-temperature prepolarization of a resistive particulate matter sensor

Ebel, Jens; Schilling, Carolin; Fritze, Holger

doi:https://doi.org/10.5194/jsss-9-263-2020

Articles | Volume 9, issue 2

https://doi.org/10.5194/jsss-9-263-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Special issue:

Dresden Sensor Symposium DSS 2019

https://doi.org/10.5194/jsss-9-263-2020

© Author(s) 2020. This work is distributed under
the Creative Commons Attribution 4.0 License.

Articles | Volume 9, issue 2

Regular research article

|

20 Aug 2020

Regular research article |

| 20 Aug 2020

Optimization of soot deposition by high-temperature prepolarization of a resistive particulate matter sensor

Jens Ebel, Carolin Schilling, and Holger Fritze

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Views and downloads (calculated since 20 Aug 2020)

Month	HTML	PDF	XML	Total
Aug 2020	71	17	3	91
Sep 2020	92	11	1	104
Oct 2020	43	5	1	49
Nov 2020	92	11	0	103
Dec 2020	95	7	1	103
Jan 2021	31	10	1	42
Feb 2021	12	2	0	14
Mar 2021	20	4	0	24
Apr 2021	12	4	0	16
May 2021	18	5	0	23
Jun 2021	17	3	0	20
Jul 2021	13	3	0	16
Aug 2021	17	5	0	22
Sep 2021	13	5	0	18
Oct 2021	15	20	0	35
Nov 2021	23	17	1	41
Dec 2021	24	4	0	28
Jan 2022	28	8	2	38
Feb 2022	17	3	2	22
Mar 2022	13	3	0	16
Apr 2022	12	3	0	15
May 2022	13	2	1	16
Jun 2022	12	3	2	17
Jul 2022	14	0	14
Aug 2022	37	2	0	39
Sep 2022	8	4	0	12
Oct 2022	5	1	0	6
Nov 2022	20	3	0	23
Dec 2022	7	1	0	8
Jan 2023	7	1	0	8
Feb 2023	7	3	0	10
Mar 2023	15	3	0	18
Apr 2023	5	5	1	11
May 2023	11	6	2	19
Jun 2023	5	3	0	8
Jul 2023	11	7	0	18
Aug 2023	16	7	4	27
Sep 2023	16	6	1	23
Oct 2023	10	3	1	14
Nov 2023	8	4	3	15
Dec 2023	11	7	1	19
Jan 2024	6	4	0	10
Feb 2024	10	4	1	15
Mar 2024	9	4	1	14
Apr 2024	21	5	2	28
May 2024	13	5	1	19
Jun 2024	78	8	3	89
Jul 2024	28	2	3	33
Aug 2024	49	1	5	55
Sep 2024	15	2	4	21
Oct 2024	15	9	3	27
Nov 2024	7	4	0	11

Cumulative views and downloads (calculated since 20 Aug 2020)

Month	HTML	PDF	XML	Total
Aug 2020	71	17	3	91
Sep 2020	92	11	1	104
Oct 2020	43	5	1	49
Nov 2020	92	11	0	103
Dec 2020	95	7	1	103
Jan 2021	31	10	1	42
Feb 2021	12	2	0	14
Mar 2021	20	4	0	24
Apr 2021	12	4	0	16
May 2021	18	5	0	23
Jun 2021	17	3	0	20
Jul 2021	13	3	0	16
Aug 2021	17	5	0	22
Sep 2021	13	5	0	18
Oct 2021	15	20	0	35
Nov 2021	23	17	1	41
Dec 2021	24	4	0	28
Jan 2022	28	8	2	38
Feb 2022	17	3	2	22
Mar 2022	13	3	0	16
Apr 2022	12	3	0	15
May 2022	13	2	1	16
Jun 2022	12	3	2	17
Jul 2022	14	0	14
Aug 2022	37	2	0	39
Sep 2022	8	4	0	12
Oct 2022	5	1	0	6
Nov 2022	20	3	0	23
Dec 2022	7	1	0	8
Jan 2023	7	1	0	8
Feb 2023	7	3	0	10
Mar 2023	15	3	0	18
Apr 2023	5	5	1	11
May 2023	11	6	2	19
Jun 2023	5	3	0	8
Jul 2023	11	7	0	18
Aug 2023	16	7	4	27
Sep 2023	16	6	1	23
Oct 2023	10	3	1	14
Nov 2023	8	4	3	15
Dec 2023	11	7	1	19
Jan 2024	6	4	0	10
Feb 2024	10	4	1	15
Mar 2024	9	4	1	14
Apr 2024	21	5	2	28
May 2024	13	5	1	19
Jun 2024	78	8	3	89
Jul 2024	28	2	3	33
Aug 2024	49	1	5	55
Sep 2024	15	2	4	21
Oct 2024	15	9	3	27
Nov 2024	7	4	0	11

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Short summary

In a very specific way, this research paper shows how established systems – in this case a commercial soot sensor for the automotive sector – can be optimized by diving deep into the basic research. The approach here is to link macroscopic observations or signal behavior with processes taking place on the atomic level. Taking these fundamental processes into account, the sensor's specific response time could be shortened effectively by a change in operating strategy – without any design changes.


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Optimization of soot deposition by high-temperature prepolarization of a resistive particulate matter sensor

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