Continuous-flow IRMS technique for determining the <sup>17</sup>O excess of CO<sub>2</sub> using complete oxygen isotope exchange with cerium oxide

Mrozek, D. J.; van der Veen, C.; Kliphuis, M.; Kaiser, J.; Wiegel, A. A.; Röckmann, T.

doi:https://doi.org/10.5194/amt-8-811-2015

Articles | Volume 8, issue 2

https://doi.org/10.5194/amt-8-811-2015

© Author(s) 2015. This work is distributed under
the Creative Commons Attribution 3.0 License.

https://doi.org/10.5194/amt-8-811-2015

© Author(s) 2015. This work is distributed under
the Creative Commons Attribution 3.0 License.

Articles | Volume 8, issue 2

Research article

|

18 Feb 2015

Research article |

| 18 Feb 2015

Continuous-flow IRMS technique for determining the ¹⁷O excess of CO₂ using complete oxygen isotope exchange with cerium oxide

D. J. Mrozek, C. van der Veen, M. Kliphuis, J. Kaiser, A. A. Wiegel, and T. Röckmann

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Views and downloads (calculated since 10 Jul 2014)

Month	HTML	PDF	XML	Total
Jul 2014	108	55	1	164
Aug 2014	24	26	1	51
Sep 2014	26	25	2	53
Oct 2014	20	18	1	39
Nov 2014	8	10	1	19
Dec 2014	13	17	3	33
Jan 2015	5	11	0	16
Feb 2015	68	44	4	116
Mar 2015	54	20	1	75
Apr 2015	61	16	2	79
May 2015	25	18	1	44
Jun 2015	30	5	0	35
Jul 2015	32	14	1	47
Aug 2015	11	12	0	23
Sep 2015	16	6	0	22
Oct 2015	27	10	0	37
Nov 2015	29	6	3	38
Dec 2015	10	17	1	28
Jan 2016	99	21	1	121
Feb 2016	90	8	2	100
Mar 2016	18	10	1	29
Apr 2016	13	9	0	22
May 2016	10	7	1	18
Jun 2016	15	9	1	25
Jul 2016	9	1	3	13
Aug 2016	12	4	0	16
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May 2017	19	10	1	30
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Oct 2017	4	8	0	12
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Jan 2018	9	10	0	19
Feb 2018	7	6	0	13
Mar 2018	9	10	0	19
Apr 2018	12	7	1	20
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Jun 2018	6	10	0	16
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Jan 2019	3	9	0	12
Feb 2019	7	9	0	16
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Dec 2019	10	7	1	18
Jan 2020	10	9	2	21
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Oct 2020	8	7	3	18
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May 2023	33	11	2	46
Jun 2023	40	3	0	43
Jul 2023	40	7	1	48
Aug 2023	40	7	4	51
Sep 2023	33	7	0	40
Oct 2023	51	14	3	68
Nov 2023	20	2	0	22
Dec 2023	37	1	0	38
Jan 2024	44	7	0	51
Feb 2024	31	11	1	43
Mar 2024	46	15	4	65
Apr 2024	21	4	3	28

Cumulative views and downloads (calculated since 10 Jul 2014)

Month	HTML	PDF	XML	Total
Jul 2014	108	55	1	164
Aug 2014	24	26	1	51
Sep 2014	26	25	2	53
Oct 2014	20	18	1	39
Nov 2014	8	10	1	19
Dec 2014	13	17	3	33
Jan 2015	5	11	0	16
Feb 2015	68	44	4	116
Mar 2015	54	20	1	75
Apr 2015	61	16	2	79
May 2015	25	18	1	44
Jun 2015	30	5	0	35
Jul 2015	32	14	1	47
Aug 2015	11	12	0	23
Sep 2015	16	6	0	22
Oct 2015	27	10	0	37
Nov 2015	29	6	3	38
Dec 2015	10	17	1	28
Jan 2016	99	21	1	121
Feb 2016	90	8	2	100
Mar 2016	18	10	1	29
Apr 2016	13	9	0	22
May 2016	10	7	1	18
Jun 2016	15	9	1	25
Jul 2016	9	1	3	13
Aug 2016	12	4	0	16
Sep 2016	11	4	3	18
Oct 2016	11	3	0	14
Nov 2016	11	6	0	17
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Feb 2017	9	4	0	13
Mar 2017	26	9	1	36
Apr 2017	22	12	1	35
May 2017	19	10	1	30
Jun 2017	22	8	0	30
Jul 2017	17	6	0	23
Aug 2017	17	10	1	28
Sep 2017	8	13	0	21
Oct 2017	4	8	0	12
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Feb 2018	7	6	0	13
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Jan 2023	8	11	0	19
Feb 2023	13	4	1	18
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Apr 2023	7	2	0	9
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Jun 2023	40	3	0	43
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Aug 2023	40	7	4	51
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Oct 2023	51	14	3	68
Nov 2023	20	2	0	22
Dec 2023	37	1	0	38
Jan 2024	44	7	0	51
Feb 2024	31	11	1	43
Mar 2024	46	15	4	65
Apr 2024	21	4	3	28

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Saved (final revised paper)

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Latest update: 17 Apr 2024

Short summary

Our analytical system is a promising tool for investigating the triple oxygen isotope composition of CO2 from stratospheric air samples of volumes 100ml and smaller. The method is designed for measuring air samples with CO2 mole fractions between 360 and 400ppm, and it is the first fully automated analytical system that uses CeO2 as the isotope exchange medium.

Continuous-flow IRMS technique for determining the ¹⁷O excess of CO₂ using complete oxygen isotope exchange with cerium oxide

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5 citations as recorded by crossref.

5 citations as recorded by crossref.

Saved (final revised paper)

Saved (preprint)

Continuous-flow IRMS technique for determining the 17O excess of CO2 using complete oxygen isotope exchange with cerium oxide

Viewed

Cited

5 citations as recorded by crossref.

5 citations as recorded by crossref.

Saved (final revised paper)

Saved (preprint)

Continuous-flow IRMS technique for determining the ¹⁷O excess of CO₂ using complete oxygen isotope exchange with cerium oxide