The Inorganic Chemist’s Guide to Actinide Radiation Chemistry: A Review

IF 6.4 1区化学 Q1 CHEMISTRY, INORGANIC & NUCLEAR

Inorganic Chemistry Frontiers Pub Date : 2025-07-10 DOI:10.1039/d5qi00975h

Tori Forbes, Samantha Kruse, Sarah K. Scherrer, Gregory Peter Holmbeck, Jay A Laverne

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Abstract

This review aims to provide an overview of the current state of ionizing radiation chemistry with respect to the actinide elements, thorium through californium. Despite the inherent radioactivity of the actinides, only a few studies explore the effects of ionizing radiation on their redox chemistry and surrounding environment. This fundamental knowledge gap, coupled with the current renaissance in actinide-based technologies such as nuclear power, space exploration, and medicine, underscores the importance of research in this interdisciplinary area. This review will focus on the interactions between reactive species formed by radiolysis with actinides and their complexes, offering an inorganic chemist’s perspective on research in radiation chemistry. In addition, a thorough discussion of our current understanding of radiation-induced changes in actinide speciation in both aqueous solution and the solid-state will be provided, focusing on changes in oxidation state distribution, complexation, and secondary coordination effects within inorganic materials. Finally, this review will discuss challenges and opportunities for inorganic chemists to explore this unique intersection of fields.

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无机化学家锕系元素辐射化学指南：综述

本文综述了锕系元素（钍-锎）电离辐射化学的现状。尽管锕系元素具有固有的放射性，但只有少数研究探讨了电离辐射对其氧化还原化学和周围环境的影响。这种基本的知识差距，加上目前以锕系元素为基础的技术，如核能、空间探索和医学的复兴，强调了在这一跨学科领域进行研究的重要性。本文将从无机化学家的角度对辐射化学研究中的锕系元素及其配合物与放射性溶解形成的反应物质之间的相互作用进行综述。此外，还将深入讨论我们目前对辐射在水溶液和固态中引起的锕系元素形态变化的理解，重点关注无机材料中氧化态分布、络合和二次配位效应的变化。最后，本文将讨论无机化学家探索这一独特交叉领域所面临的挑战和机遇。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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