The coordination chemistry of Cm(III), Am(III), and Ac(III) in nitrate solutions: an actinide L(3)-edge EXAFS study

Understanding actinide(iii) (An(III) = Cm(III), Am(III), Ac(III)) solution-phase speciation is critical for controlling many actinide processing schemes, ranging from medical applications to reprocessing of spent nuclear fuel. Unfortunately, in comparison to most elements in the periodic table, An(I...

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Autores principales: Ferrier, Maryline G., Stein, Benjamin W., Bone, Sharon E., Cary, Samantha K., Ditter, Alexander S., Kozimor, Stosh A., Lezama Pacheco, Juan S., Mocko, Veronika, Seidler, Gerald T.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Royal Society of Chemistry 2018
Materias:
Chemistry
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6137438/
https://www.ncbi.nlm.nih.gov/pubmed/30310628
http://dx.doi.org/10.1039/c8sc02270d
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author Ferrier, Maryline G.
Stein, Benjamin W.
Bone, Sharon E.
Cary, Samantha K.
Ditter, Alexander S.
Kozimor, Stosh A.
Lezama Pacheco, Juan S.
Mocko, Veronika
Seidler, Gerald T.
author_facet Ferrier, Maryline G.
Stein, Benjamin W.
Bone, Sharon E.
Cary, Samantha K.
Ditter, Alexander S.
Kozimor, Stosh A.
Lezama Pacheco, Juan S.
Mocko, Veronika
Seidler, Gerald T.
author_sort Ferrier, Maryline G.
collection PubMed
description Understanding actinide(iii) (An(III) = Cm(III), Am(III), Ac(III)) solution-phase speciation is critical for controlling many actinide processing schemes, ranging from medical applications to reprocessing of spent nuclear fuel. Unfortunately, in comparison to most elements in the periodic table, An(III) speciation is often poorly defined in complexing aqueous solutions and in organic media. This neglect – in large part – is a direct result of the radioactive properties of these elements, which make them difficult to handle and acquire. Herein, we surmounted some of the handling challenges associated with these exotic 5f-elements and characterized Cm(III), Am(III), and Ac(III) using An(III) L(3)-edge X-ray absorption spectroscopy (XAS) as a function of increasing nitric acid (HNO(3)) concentration. Our results revealed that actinide aquo ions, An(H(2)O)(x)(3+) (x = 9.6 ± 0.7, 8.9 ± 0.8, and 10.0 ± 0.9 for Cm(III), Am(III), and Ac(III)), were the dominant species in dilute HNO(3) (0.05 M). In concentrated HNO(3) (16 M), shell-by-shell fitting of the extended X-ray fine structure (EXAFS) data showed the nitrate complexation increased, such that the average stoichiometries of Cm(NO(3))(4.1±0.7)(H(2)O)(5.7±1.3)((1.1±0.2)–), Am(NO(3))(3.4±0.7)(H(2)O)(5.4±0.5)((0.4±0.1)–), and Ac(NO(3))(2.3±1.7)(H(2)O)(8.3±5.2)((0.7±0.5)+) were observed. Data obtained at the intermediate HNO(3) concentration (4 M) were modeled as a linear combination of the 0.05 and 16 M spectra. For all three metals, the intermediate models showed larger contributions from the 0.05 M HNO(3) spectra than from the 16 M HNO(3) spectra. Additionally, these efforts enabled the Cm–NO(3) and Ac–NO(3) distances to be measured for the first time. Moreover, the An(III) L(3)-edge EXAFS results, contribute to the growing body of knowledge associated with Cm(III), Am(III), and Ac(III) coordination chemistry, in particular toward advancing understanding of An(III) solution phase speciation.
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spelling pubmed-61374382018-10-11 The coordination chemistry of Cm(III), Am(III), and Ac(III) in nitrate solutions: an actinide L(3)-edge EXAFS study Ferrier, Maryline G. Stein, Benjamin W. Bone, Sharon E. Cary, Samantha K. Ditter, Alexander S. Kozimor, Stosh A. Lezama Pacheco, Juan S. Mocko, Veronika Seidler, Gerald T. Chem Sci Chemistry Understanding actinide(iii) (An(III) = Cm(III), Am(III), Ac(III)) solution-phase speciation is critical for controlling many actinide processing schemes, ranging from medical applications to reprocessing of spent nuclear fuel. Unfortunately, in comparison to most elements in the periodic table, An(III) speciation is often poorly defined in complexing aqueous solutions and in organic media. This neglect – in large part – is a direct result of the radioactive properties of these elements, which make them difficult to handle and acquire. Herein, we surmounted some of the handling challenges associated with these exotic 5f-elements and characterized Cm(III), Am(III), and Ac(III) using An(III) L(3)-edge X-ray absorption spectroscopy (XAS) as a function of increasing nitric acid (HNO(3)) concentration. Our results revealed that actinide aquo ions, An(H(2)O)(x)(3+) (x = 9.6 ± 0.7, 8.9 ± 0.8, and 10.0 ± 0.9 for Cm(III), Am(III), and Ac(III)), were the dominant species in dilute HNO(3) (0.05 M). In concentrated HNO(3) (16 M), shell-by-shell fitting of the extended X-ray fine structure (EXAFS) data showed the nitrate complexation increased, such that the average stoichiometries of Cm(NO(3))(4.1±0.7)(H(2)O)(5.7±1.3)((1.1±0.2)–), Am(NO(3))(3.4±0.7)(H(2)O)(5.4±0.5)((0.4±0.1)–), and Ac(NO(3))(2.3±1.7)(H(2)O)(8.3±5.2)((0.7±0.5)+) were observed. Data obtained at the intermediate HNO(3) concentration (4 M) were modeled as a linear combination of the 0.05 and 16 M spectra. For all three metals, the intermediate models showed larger contributions from the 0.05 M HNO(3) spectra than from the 16 M HNO(3) spectra. Additionally, these efforts enabled the Cm–NO(3) and Ac–NO(3) distances to be measured for the first time. Moreover, the An(III) L(3)-edge EXAFS results, contribute to the growing body of knowledge associated with Cm(III), Am(III), and Ac(III) coordination chemistry, in particular toward advancing understanding of An(III) solution phase speciation. Royal Society of Chemistry 2018-08-01 /pmc/articles/PMC6137438/ /pubmed/30310628 http://dx.doi.org/10.1039/c8sc02270d Text en This journal is © The Royal Society of Chemistry 2018 http://creativecommons.org/licenses/by/3.0/ This article is freely available. This article is licensed under a Creative Commons Attribution 3.0 Unported Licence (CC BY 3.0)
spellingShingle Chemistry
Ferrier, Maryline G.
Stein, Benjamin W.
Bone, Sharon E.
Cary, Samantha K.
Ditter, Alexander S.
Kozimor, Stosh A.
Lezama Pacheco, Juan S.
Mocko, Veronika
Seidler, Gerald T.
The coordination chemistry of Cm(III), Am(III), and Ac(III) in nitrate solutions: an actinide L(3)-edge EXAFS study
title The coordination chemistry of Cm(III), Am(III), and Ac(III) in nitrate solutions: an actinide L(3)-edge EXAFS study
title_full The coordination chemistry of Cm(III), Am(III), and Ac(III) in nitrate solutions: an actinide L(3)-edge EXAFS study
title_fullStr The coordination chemistry of Cm(III), Am(III), and Ac(III) in nitrate solutions: an actinide L(3)-edge EXAFS study
title_full_unstemmed The coordination chemistry of Cm(III), Am(III), and Ac(III) in nitrate solutions: an actinide L(3)-edge EXAFS study
title_short The coordination chemistry of Cm(III), Am(III), and Ac(III) in nitrate solutions: an actinide L(3)-edge EXAFS study
title_sort coordination chemistry of cm(iii), am(iii), and ac(iii) in nitrate solutions: an actinide l(3)-edge exafs study
topic Chemistry
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6137438/
https://www.ncbi.nlm.nih.gov/pubmed/30310628
http://dx.doi.org/10.1039/c8sc02270d
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