Transient Radiation-Induced Berkelium(III) and Californium(III) Redox Chemistry in Aqueous Solution.
Gregory P HorneBrian M RotermundTravis S GrimesJoseph M SperlingDavid S MeekerPeter R ZalupskiNicholas BeckZachary K HuffmanDaniela Gomez MartinezAndrew BeshayDean R PetermanBobby H LayneJason JohnsonAndrew R CookThomas E Albrecht SchmittStephen P MezykPublished in: Inorganic chemistry (2022)
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 (e aq - ) and hydrogen atom (H • ), demonstrating a significant reactivity (up to 10 11 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 (NO 3 • ) radicals, which also exhibited fast reactivity (ca. 10 8 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.
Keyphrases
- radiation induced
- electron transfer
- radiation therapy
- cystic fibrosis
- aqueous solution
- cerebral ischemia
- drug discovery
- healthcare
- diabetic rats
- air pollution
- public health
- blood pressure
- hydrogen peroxide
- molecular dynamics
- ionic liquid
- blood brain barrier
- artificial intelligence
- drug induced
- risk assessment
- protein kinase
- solar cells
- transition metal