An Evaluation of Actinide Reactivity with CO 2 , O 2 , and O 2 /He Gases using Inductively Coupled Plasma Tandem Mass Spectrometry: Application to Simultaneous Measurement of 241 Am/ 241 Pu Ratios in Unseparated Complex Matrices
Accurate actinide measurements are critical within the field of nuclear science. Traditional methods for actinide quantification require time-consuming sample processing prior to analysis. There is a need for rapid analytical techniques that still maintain a high degree of accuracy. In this work, ac...
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| Published in | Analytical chemistry (Washington) Vol. 97; no. 23; pp. 12313 - 12320 |
|---|---|
| Main Authors | , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
17.06.2025
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| Online Access | Get full text |
| ISSN | 0003-2700 1520-6882 |
| DOI | 10.1021/acs.analchem.5c01397 |
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| Abstract | Accurate actinide measurements are critical within the field of nuclear science. Traditional methods for actinide quantification require time-consuming sample processing prior to analysis. There is a need for rapid analytical techniques that still maintain a high degree of accuracy. In this work, actinide reactivity was assessed for multiple oxygen-containing reaction gases using quadrupole inductively coupled plasma tandem mass spectrometry (Q-ICP-MS/MS) to evaluate actinide analysis in complex sample matrices without analyte-matrix separation. A novel method was developed to measure
Am/
Pu in complex sample matrices using an O
/He reaction gas with no matrix removal or analyte preconcentration. This inline method reduces matrix-derived polyatomic interferences that complicate traditional ICP-MS analyses by mass-shifting to
Am
O
and
Pu
O
, allowing Am and Pu to be mass separated for simultaneous analysis. While mass shifting is efficient, a small portion of Am
(<1.3%) and Pu
(<1.4%) react to form AmO
and PuO
, respectively. Therefore, a mass balance approach was used, in combination with reactivity determined from
Pu and
Am standard solutions, to correct for residual
PuO
and
AmO
. The method was validated by measuring
Am/
Pu in Pu isotope standards CRM-136 and CRM-137 (separated in March/April 1970 and February 2022, respectively) in both neat solutions and complex matrices containing diluted soil (NIST SRM 2711a, > 1000 μg·g
). Method detection limits of 15.9 and 9.6 fg·g
were determined for
Am and
Pu, respectively, and
Am/
Pu ratios were measured with accuracies within <3.5%. This work presents the first direct analysis of
Am/
Pu in unseparated complex matrices, advancing the capabilities for rapid actinide measurements. |
|---|---|
| AbstractList | Accurate actinide measurements are critical within the field of nuclear science. Traditional methods for actinide quantification require time-consuming sample processing prior to analysis. There is a need for rapid analytical techniques that still maintain a high degree of accuracy. In this work, actinide reactivity was assessed for multiple oxygen-containing reaction gases using quadrupole inductively coupled plasma tandem mass spectrometry (Q-ICP-MS/MS) to evaluate actinide analysis in complex sample matrices without analyte-matrix separation. A novel method was developed to measure
Am/
Pu in complex sample matrices using an O
/He reaction gas with no matrix removal or analyte preconcentration. This inline method reduces matrix-derived polyatomic interferences that complicate traditional ICP-MS analyses by mass-shifting to
Am
O
and
Pu
O
, allowing Am and Pu to be mass separated for simultaneous analysis. While mass shifting is efficient, a small portion of Am
(<1.3%) and Pu
(<1.4%) react to form AmO
and PuO
, respectively. Therefore, a mass balance approach was used, in combination with reactivity determined from
Pu and
Am standard solutions, to correct for residual
PuO
and
AmO
. The method was validated by measuring
Am/
Pu in Pu isotope standards CRM-136 and CRM-137 (separated in March/April 1970 and February 2022, respectively) in both neat solutions and complex matrices containing diluted soil (NIST SRM 2711a, > 1000 μg·g
). Method detection limits of 15.9 and 9.6 fg·g
were determined for
Am and
Pu, respectively, and
Am/
Pu ratios were measured with accuracies within <3.5%. This work presents the first direct analysis of
Am/
Pu in unseparated complex matrices, advancing the capabilities for rapid actinide measurements. |
| Author | Arnquist, Isaac J. Beck, Chelsie Schlieder, Tyler D. Hobbs, Kirby P. French, Amanda D. Hughes, Lee H. |
| Author_xml | – sequence: 1 givenname: Tyler D. orcidid: 0000-0002-4382-6537 surname: Schlieder fullname: Schlieder, Tyler D. – sequence: 2 givenname: Kirby P. orcidid: 0009-0004-8537-2811 surname: Hobbs fullname: Hobbs, Kirby P. – sequence: 3 givenname: Amanda D. orcidid: 0000-0002-8417-6091 surname: French fullname: French, Amanda D. – sequence: 4 givenname: Lee H. surname: Hughes fullname: Hughes, Lee H. – sequence: 5 givenname: Isaac J. surname: Arnquist fullname: Arnquist, Isaac J. – sequence: 6 givenname: Chelsie orcidid: 0000-0002-5958-451X surname: Beck fullname: Beck, Chelsie |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/40464754$$D View this record in MEDLINE/PubMed |
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| Title | An Evaluation of Actinide Reactivity with CO 2 , O 2 , and O 2 /He Gases using Inductively Coupled Plasma Tandem Mass Spectrometry: Application to Simultaneous Measurement of 241 Am/ 241 Pu Ratios in Unseparated Complex Matrices |
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