2017
DOI: 10.1021/acs.iecr.7b02973
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Addressing Ruthenium Speciation in Tri-n-butyl-phosphate Solvent Extraction Process by Fourier Transform Infrared, Extended X-ray Absorption Fine Structure, and Single Crystal X-ray Diffraction

Abstract: In industrial nuclear fuel reprocessing, small amounts of ruthenium are extracted by tri-n-butyl-phosphate (TBP) at the same time as uranium and plutonium. This behavior increases solvent radiolysis and requires secondary extraction cycles to minimize the residual ruthenium content in uranium and plutonium products. However, the solvent ruthenium extraction mechanism remains largely unexplored. This study addresses the speciation of ruthenium in solvent extraction conditions by complementary infrared and X-ray… Show more

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Cited by 24 publications
(44 citation statements)
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“…Table 2 shows the calculated IR frequencies and assignment of normal vibrational modes with the experimental values in solid state. 12,16 The calculated frequencies of three isomers show the similar values to the experimental frequencies, especially, those of the abc model were found to well reproduce the O-H stretching vibration compared to the other isomers. The IR frequencies and intensities of normal vibrational modes employed for the estimation are summarized in Table S2.…”
Section: Resultssupporting
confidence: 64%
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“…Table 2 shows the calculated IR frequencies and assignment of normal vibrational modes with the experimental values in solid state. 12,16 The calculated frequencies of three isomers show the similar values to the experimental frequencies, especially, those of the abc model were found to well reproduce the O-H stretching vibration compared to the other isomers. The IR frequencies and intensities of normal vibrational modes employed for the estimation are summarized in Table S2.…”
Section: Resultssupporting
confidence: 64%
“…Experimental bond lengths of the complex with x ¼ 3, which was tted as the abc model, in solution were reported by using EXAFS measurement as 2.04(3), 2.11(9), and 2.08(1)Å for Ru-O eq (NO 3 ), Ru-O eq (H 2 O), and Ru-O ax (H 2 O) bond lengths, respectively. 16 The corresponding calculated values, 2.06(3), 2.13, and 2.08Å, respectively, were consistent with the experimental values within the standard deviation. We also showed S values, which denote the sum of the deviations from the ideal octahedron of the cis Ru-ligand bond angles in Table 1.…”
Section: Introductionsupporting
confidence: 79%
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“…The pairs of ammine and pyridine ligands are cis ‐coordinated in the equatorial plane. The average Ru–N distance in the equatorial plane is the same as in trans ‐[RuNO(NH 3 ) 4 (NO 3 )] 2+ (2.103 Å), with the average Ru/ammine distance being (2.098 Å) slightly smaller than the average ruthenium‐pyridine distance (2.109 Å). The bonds lengths in the coordinated pyridines are 1.386 and 1.351 for carbon‐carbon and carbon‐nitrogen bonds respectively.…”
Section: Resultsmentioning
confidence: 86%
“…The ruthenium atom is shifted from the equatorial plane toward the nitrosyl group by 0.08 Å. For the related cationic trans ‐[RuNO(NH 3 ) 4 X] 2+ complexes, the shift is larger (0.12 Å) for X equal to nitrate or hydroxyl,, and is similar to the chloride complex . The RuNO fragment is close to linear with 176.26(8)° angle and the Ru–N and N–O bonds having usual distances of 1.7420(8) and 1.1338(11) Å respectively , , …”
Section: Resultsmentioning
confidence: 92%