'Blind time' – current limitations on laser ablation multi-collector inductively coupled plasma mass spectrometry (LA-MC-ICP-MS) for ultra-transient signal isotope ratio analysis and application to individual sub-micron sized uranium particles. Issue 5 (23rd April 2020)

Record Type:: Journal Article
Title:: 'Blind time' – current limitations on laser ablation multi-collector inductively coupled plasma mass spectrometry (LA-MC-ICP-MS) for ultra-transient signal isotope ratio analysis and application to individual sub-micron sized uranium particles. Issue 5 (23rd April 2020)
Main Title:: 'Blind time' – current limitations on laser ablation multi-collector inductively coupled plasma mass spectrometry (LA-MC-ICP-MS) for ultra-transient signal isotope ratio analysis and application to individual sub-micron sized uranium particles
Authors:: Craig, Grant
Horstwood, Matthew S. A.
Reid, Helen J.
Sharp, Barry L.
Abstract:: Abstract : Gaps in acquisition between integration times for MC-ICP-MS can introduce isotope ratio bias with a mixed detector array. Abstract : The application of laser ablation multi-collector inductively coupled plasma mass spectrometry (LA-MC-ICP-MS) to the isotope ratio analysis of UO x particles has the potential to improve the isotopic determination of these particles when compared to currently utilised ICP-MS techniques. To investigate this a high-speed, integrated ablation cell and dual concentric injector design was tested in the expectation that the resulting increase in signal to noise ratio and sample ion yield would improve the determination of 234 U/ 238 U, 235 U/ 238 U and 236 U/ 238 U for such materials. However, when compared to a slower washout, more established low-volume cell design, the highly transient signals of the new design proved challenging for the mixed detector array of the multi-collector mass spectrometer, introducing a new bias. We describe a major component of this bias, referred to as 'blind time', and model its impact on UO x particle analysis. After accounting for blind time, average precisions for the uranium isotopic composition of sub-micron sized UO x particles using LA-MC-ICP-MS were 3% 1RSD for 235 U/ 238 U and 8% 1RSD for 234 U/ 238 U. When ablating a glass rather than a UO x particle, uncertainties of 1.3% 1RSD for 235 U/ 238 U were achieved for 150 nm equivalent particle sizes using LA-MC-ICP-MS.
Is Part Of:: Journal of analytical atomic spectrometry. Volume 35:Issue 5(2020)
Journal:: Journal of analytical atomic spectrometry
Issue:: Volume 35:Issue 5(2020)
Issue Display:: Volume 35, Issue 5 (2020)
Year:: 2020
Volume:: 35
Issue:: 5
Issue Sort Value:: 2020-0035-0005-0000
Page Start:: 1011
Page End:: 1021
Publication Date:: 2020-04-23
Subjects:: Atomic spectra -- Periodicals
Atomic absorption spectroscopy -- Periodicals
543.0858
Journal URLs:: http://pubs.rsc.org/en/journals/journalissues/ja#!recentarticles&adv ↗
http://www.rsc.org/ ↗
DOI:: 10.1039/d0ja00066c ↗
Languages:: English
ISSNs:: 0267-9477
Deposit Type:: Legaldeposit
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