Scientific Reports (Jun 2023)

Crystal chemical design, synthesis and characterisation of U(IV)-dominant betafite phases for actinide immobilisation

  • Shi-Kuan Sun,
  • Lucy M. Mottram,
  • Thomas Gouder,
  • Martin C. Stennett,
  • Neil C. Hyatt,
  • Claire L. Corkhill

DOI
https://doi.org/10.1038/s41598-023-36571-w
Journal volume & issue
Vol. 13, no. 1
pp. 1 – 9

Abstract

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Abstract Crystal chemical design principles were applied to synthesise novel U4+ dominant and titanium excess betafite phases Ca1.15(5)U0.56(4)Zr0.17(2)Ti2.19(2)O7 and Ca1.10(4)U0.68(4)Zr0.15(3)Ti2.12(2)O7, in high yield (85–95 wt%), and ceramic density reaching 99% of theoretical. Substitution of Ti on the A-site of the pyrochlore structure, in excess of full B-site occupancy, enabled the radius ratio (rA/rB = 1.69) to be tuned into the pyrochlore stability field, approximately 1.48 ≲ rA/rB ≲ 1.78, in contrast to the archetype composition CaUTi2O7 (rA/rB = 1.75). U L3-edge XANES and U 4f 7/2 and U 4f 5/2 XPS data evidenced U4+ as the dominant speciation, consistent with the determined chemical compositions. The new betafite phases, and further analysis reported herein, point to a wider family of actinide betafite pyrochlores that could be stabilised by application of the underlying crystal chemical principle applied here.