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Development of an optimised method for measurement of iodine-129 in decommissioning wastes using ICP-MS/MS

Development of an optimised method for measurement of iodine-129 in decommissioning wastes using ICP-MS/MS
Development of an optimised method for measurement of iodine-129 in decommissioning wastes using ICP-MS/MS
Accurate, low-level measurement of the long-lived fission product 129I is important for waste characterisation and long-term monitoring of waste facilities and the surrounding environment. Inductively coupled plasma mass spectrometry (ICP-MS) is well-suited to high throughput, sensitive measurement of 129I as a cost-effective alternative to other mass spectrometric and decay counting techniques. Accurate 129I measurement by ICP-MS is affected by the multiple interferences on m/z = 129, necessitating multi-stage sample preparation and/or mathematical correction. This study assesses the capabilities of tandem ICP-MS/MS for rapid and routine measurement of 129I in nuclear wastes. The advantages of the tandem setup for removal of isobaric, polyatomic and tailing interferences are demonstrated, as are the improvements in sensitivity through matrix modification and the importance of selecting an appropriate internal standard. The optimised setup was applied to measurement of various decommissioning waste simulants following direct extraction of 129I. The procedure achieved an instrument detection limit of 1.05 × 10−4 Bq g−1 (0.017 ng g−1) for 129I, which is two orders of magnitude below the target out-of-scope limit of 0.01 Bq g−1 (1.57 ng g−1), with good agreement between ICP-MS/MS and liquid scintillation counting (LSC). The results show that rapid, routine, low-level measurement of 129I is achievable by ICP-MS/MS for end users in decommissioning and environmental monitoring.
0267-9477
1431-1441
Zacharauskas, Žilvinas
3be1c578-5aab-4bf8-9898-89642343ab5a
Warwick, Phil
f2675d83-eee2-40c5-b53d-fbe437f401ef
Russell, Ben
0942ccbe-7788-4d03-a309-9d6f2a7785ff
Reading, Dave
e875ad0e-0316-469b-9e82-f93f48ef4734
Croudace, Ian
af12844a-de56-403f-8ce1-1df3c5e95642
Zacharauskas, Žilvinas
3be1c578-5aab-4bf8-9898-89642343ab5a
Warwick, Phil
f2675d83-eee2-40c5-b53d-fbe437f401ef
Russell, Ben
0942ccbe-7788-4d03-a309-9d6f2a7785ff
Reading, Dave
e875ad0e-0316-469b-9e82-f93f48ef4734
Croudace, Ian
af12844a-de56-403f-8ce1-1df3c5e95642

Zacharauskas, Žilvinas, Warwick, Phil, Russell, Ben, Reading, Dave and Croudace, Ian (2023) Development of an optimised method for measurement of iodine-129 in decommissioning wastes using ICP-MS/MS. Journal of Analytical Atomic Spectrometry, 38 (7), 1431-1441. (doi:10.1039/D3JA00045A).

Record type: Article

Abstract

Accurate, low-level measurement of the long-lived fission product 129I is important for waste characterisation and long-term monitoring of waste facilities and the surrounding environment. Inductively coupled plasma mass spectrometry (ICP-MS) is well-suited to high throughput, sensitive measurement of 129I as a cost-effective alternative to other mass spectrometric and decay counting techniques. Accurate 129I measurement by ICP-MS is affected by the multiple interferences on m/z = 129, necessitating multi-stage sample preparation and/or mathematical correction. This study assesses the capabilities of tandem ICP-MS/MS for rapid and routine measurement of 129I in nuclear wastes. The advantages of the tandem setup for removal of isobaric, polyatomic and tailing interferences are demonstrated, as are the improvements in sensitivity through matrix modification and the importance of selecting an appropriate internal standard. The optimised setup was applied to measurement of various decommissioning waste simulants following direct extraction of 129I. The procedure achieved an instrument detection limit of 1.05 × 10−4 Bq g−1 (0.017 ng g−1) for 129I, which is two orders of magnitude below the target out-of-scope limit of 0.01 Bq g−1 (1.57 ng g−1), with good agreement between ICP-MS/MS and liquid scintillation counting (LSC). The results show that rapid, routine, low-level measurement of 129I is achievable by ICP-MS/MS for end users in decommissioning and environmental monitoring.

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Zacharauskas et al 2023 accepted manuscript - Accepted Manuscript
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Accepted/In Press date: 16 May 2023
Published date: 24 May 2023
Additional Information: Publisher Copyright:© 2023 The Royal Society of Chemisry. Accepted manuscripts may be distributed via repositories after an embargo period of 12 months

Identifiers

Local EPrints ID: 480828
URI: http://eprints.soton.ac.uk/id/eprint/480828
ISSN: 0267-9477
PURE UUID: 4367bb00-ce14-457d-822e-4b5bd9136dec
ORCID for Phil Warwick: ORCID iD orcid.org/0000-0001-8774-5125
ORCID for Dave Reading: ORCID iD orcid.org/0000-0002-6697-8525

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Date deposited: 10 Aug 2023 16:31
Last modified: 24 May 2024 04:01

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Contributors

Author: Žilvinas Zacharauskas
Author: Phil Warwick ORCID iD
Author: Ben Russell
Author: Dave Reading ORCID iD
Author: Ian Croudace

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