Transient Radiation-Induced Berkelium(III) and Californium(III) Redox Chemistry in Aqueous Solution

Despite the significant impact of radiation-induced redox reactions on the accessibility and lifetimes of actinide oxidation states, fundamental knowledge of aqueous actinide metal ion radiation chemistry is limited, especially for the late actinides. A quantitative understanding of these intrinsic...

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Veröffentlicht in:	Inorganic chemistry 2022-07, Vol.61 (28), p.10822-10832
Hauptverfasser:	Horne, Gregory P., Rotermund, Brian M., Grimes, Travis S., Sperling, Joseph M., Meeker, David S., Zalupski, Peter R., Beck, Nicholas, Huffman, Zachary K., Martinez, Daniela Gomez, Beshay, Andrew, Peterman, Dean R., Layne, Bobby H., Johnson, Jason, Cook, Andrew R., Albrecht-Schönzart, Thomas E., Mezyk, Stephen P.
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Schlagworte:	Berkelium Californium Electron Pulse Radiolysis INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY Radiation Chemistry RADIATION CHEMISTRY, RADIOCHEMISTRY, AND NUCLEAR CHEMISTRY Reaction Kinetics
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creator	Horne, Gregory P. Rotermund, Brian M. Grimes, Travis S. Sperling, Joseph M. Meeker, David S. Zalupski, Peter R. Beck, Nicholas Huffman, Zachary K. Martinez, Daniela Gomez Beshay, Andrew Peterman, Dean R. Layne, Bobby H. Johnson, Jason Cook, Andrew R. Albrecht-Schönzart, Thomas E. Mezyk, Stephen P.
description	Despite the significant impact of radiation-induced redox reactions on the accessibility and lifetimes of actinide oxidation states, fundamental knowledge of aqueous actinide metal ion radiation chemistry is limited, especially for the late actinides. A quantitative understanding of these intrinsic radiation-induced processes is essential for investigating the fundamental properties of these actinides. We present here a picosecond electron pulse reaction kinetics study into the radiation-induced redox chemistry of trivalent berkelium (Bk(III)) and californium (Cf(III)) ions in acidic aqueous solutions at ambient temperature. New and first-of-a-kind, second-order rate coefficients are reported for the transient radical-induced reduction of Bk(III) and Cf(III) by the hydrated electron (eaq –) and hydrogen atom (H•), demonstrating a significant reactivity (up to 1011 M–1 s–1) indicative of a preference of these metals to adopt divalent states. Additionally, we report the first-ever second-order rate coefficients for the transient radical-induced oxidation of these elements by a reaction with hydroxyl (•OH) and nitrate (NO3 •) radicals, which also exhibited fast reactivity (ca. 108 M–1 s–1). Transient Cf(II), Cf(IV), and Bk(IV) absorption spectra are also reported. Overall, the presented data highlight the existence of rich, complex, intrinsic late actinide radiation-induced redox chemistry that has the potential to influence the findings of other areas of actinide science.
doi_str_mv	10.1021/acs.inorgchem.2c01106
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Transient Cf(II), Cf(IV), and Bk(IV) absorption spectra are also reported. 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Chem</addtitle><description>Despite the significant impact of radiation-induced redox reactions on the accessibility and lifetimes of actinide oxidation states, fundamental knowledge of aqueous actinide metal ion radiation chemistry is limited, especially for the late actinides. A quantitative understanding of these intrinsic radiation-induced processes is essential for investigating the fundamental properties of these actinides. We present here a picosecond electron pulse reaction kinetics study into the radiation-induced redox chemistry of trivalent berkelium (Bk(III)) and californium (Cf(III)) ions in acidic aqueous solutions at ambient temperature. New and first-of-a-kind, second-order rate coefficients are reported for the transient radical-induced reduction of Bk(III) and Cf(III) by the hydrated electron (eaq –) and hydrogen atom (H•), demonstrating a significant reactivity (up to 1011 M–1 s–1) indicative of a preference of these metals to adopt divalent states. Additionally, we report the first-ever second-order rate coefficients for the transient radical-induced oxidation of these elements by a reaction with hydroxyl (•OH) and nitrate (NO3 •) radicals, which also exhibited fast reactivity (ca. 108 M–1 s–1). Transient Cf(II), Cf(IV), and Bk(IV) absorption spectra are also reported. 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Chem</addtitle><date>2022-07-18</date><risdate>2022</risdate><volume>61</volume><issue>28</issue><spage>10822</spage><epage>10832</epage><pages>10822-10832</pages><issn>0020-1669</issn><eissn>1520-510X</eissn><abstract>Despite the significant impact of radiation-induced redox reactions on the accessibility and lifetimes of actinide oxidation states, fundamental knowledge of aqueous actinide metal ion radiation chemistry is limited, especially for the late actinides. A quantitative understanding of these intrinsic radiation-induced processes is essential for investigating the fundamental properties of these actinides. We present here a picosecond electron pulse reaction kinetics study into the radiation-induced redox chemistry of trivalent berkelium (Bk(III)) and californium (Cf(III)) ions in acidic aqueous solutions at ambient temperature. New and first-of-a-kind, second-order rate coefficients are reported for the transient radical-induced reduction of Bk(III) and Cf(III) by the hydrated electron (eaq –) and hydrogen atom (H•), demonstrating a significant reactivity (up to 1011 M–1 s–1) indicative of a preference of these metals to adopt divalent states. Additionally, we report the first-ever second-order rate coefficients for the transient radical-induced oxidation of these elements by a reaction with hydroxyl (•OH) and nitrate (NO3 •) radicals, which also exhibited fast reactivity (ca. 108 M–1 s–1). Transient Cf(II), Cf(IV), and Bk(IV) absorption spectra are also reported. 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subjects	Berkelium Californium Electron Pulse Radiolysis INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY Radiation Chemistry RADIATION CHEMISTRY, RADIOCHEMISTRY, AND NUCLEAR CHEMISTRY Reaction Kinetics
title	Transient Radiation-Induced Berkelium(III) and Californium(III) Redox Chemistry in Aqueous Solution
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