UCl3 盐成分在氧气暴露下形成 β-U3O8

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-11-14 Epub Date: 2024-11-05 DOI:10.1021/acs.jpcb.4c02776
Benjamin W Tuffy, Nancy R Birkner, Juliano Schorne-Pinto, Ryan C Davis, Amir M Mofrad, Clara M Dixon, Mina Aziziha, Matthew S Christian, Timothy J Lynch, Maxwell T Bartlett, Theodore M Besmann, Kyle S Brinkman, Wilson K S Chiu
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引用次数: 0

摘要

对碱式氯化盐成分中不同浓度的 UCl3 进行了 X 射线吸收精细结构 (XAFS) 和拉曼光谱互补研究。样品摩尔浓度分别为:氯化锂(S1)中 5 摩尔%的 UCl3、氯化钾(S2)中 5 摩尔%的 UCl3、氯化锂-氯化钾共晶(S4)中 5 摩尔%的 UCl3、氯化钾(S5)中 50 摩尔%的 UCl3 和氯化钾(S6)中 20 摩尔%的 UCl3。样品加热至 800 °C,然后冷却至室温,并在选定的温度下进行测量;最高温度显示出最大的稳定性,将作为得出结论的主要参考。对拉曼峰和扩展 X 射线吸收精细结构 (EXAFS) 峰的处理和解释揭示了样品在加热前、加热过程中和加热后的几种铀-氧键长度和对称性。根据已发表的类似体系的热力学数据、X 射线吸收精细结构光谱和拉曼峰的识别,在高温(800 °C)下,所有样品的β变化α-U3O8(室温下的典型相)被认为是主要相。在现有文献中,U3O8 的这种 β 结构是通过铀氧化物从 1350 °C 缓慢冷却合成的。本文认为该化合物的快速形成是由于铀的氯化物或氧氯化物在温度升高时分解以及 O2 反应动力学所致。
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Formation of β-U3O8 from UCl3 Salt Compositions under Oxygen Exposure.

Complementary X-ray absorption fine structure (XAFS) and Raman spectroscopy studies were conducted on various UCl3 concentrations in alkali chloride salt compositions. The samples were 5 mol % UCl3 in LiCl (S1), 5 mol % UCl3 in KCl (S2), 5 mol % UCl3 in LiCl-KCl eutectic (S4), 50 mol % UCl3 in KCl (S5), and 20 mol % UCl3 in KCl (S6) molar concentrations. Samples were heated to 800 °C and allowed to cool to room temperature with measurements performed at selected temperatures; the highest temperatures showed the most stability and will be primarily referenced for conclusions. The processing and interpretation of the Raman and extended X-ray absorption fine structure (EXAFS) peaks revealed several uranium-oxygen bond lengths and symmetries in the samples before, during, and after heating. Based on published thermodynamic data of similar systems, X-ray absorption fine structure spectroscopy, and identification of Raman peaks, a β variation of α-U3O8, typical at room temperature, is the suspected dominant phase of all samples at high temperatures (800 °C). In the existing literature, this β structure of U3O8 was synthesized by slow cooling of uranium oxides from 1350 °C. This paper suggests the rapid formation of the compound due to the decomposition of the uranium chlorides or oxychlorides at increasing temperatures and O2 reaction kinetics.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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