An in situ spectroscopic study of the local structure of oxyfluoride melts: NMR insights into the speciation in molten LiF–LaF<sub>3</sub>–Li<sub>2</sub>O systems

Rollet, Anne‐Laure; Matsuura, Haruaki; Bessada, Catherine

doi:10.1039/c4dt00926f

Cited by 14 publications

(12 citation statements)

References 84 publications

(142 reference statements)

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“…They proved that dissolution of Nd 2 O 3 in NdF 3 -LiF is attributed to a reaction of Nd 2 O 3 + NdF 3 + 3(x À 1)F À ¼ 3NdOF x (xÀ1)À . 28,29 In this study, the precipitated ZrO 2 also reacted with the excessive ZrF 4 and F À at n Zr /n O > 0.5 to form Zr 2 OF x 6Àx complexes as indicated in eqn (3), which obviously increased the solubility of ZrO 2 in the FLiNaK melts. Additionally, the solubility of La 2 O 3 is lower in LiF melts 27 than that in LaF 3 -LiF melts due to the formation of LaO x F y complexes.…”

Section: Chemical Interactions Between Zirconium and Free Oxide In Momentioning

confidence: 73%

“…The oxyuorides in molten uorides have already been addressed in the eld of rare earth [27][28][29][30][31][32][33][34] and aluminum production. 35, 36 Stefanidaki 32 found that the solubility of Nd 2 O 3 at 900 C increased to 0.15, 0.22 and 0.38 mol% when NdF 3 in LiF melt was increased to 15, 23 and 30 mol%, respectively.…”

Section: Chemical Interactions Between Zirconium and Free Oxide In Momentioning

confidence: 99%

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Chemical interactions between zirconium and free oxide in molten fluorides

et al. 2015

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The chemical interactions between zirconium and free oxide in FLiNaK melts at different zirconium to oxide (n Zr /n O ) molar ratios were studied by means of a carbothermal-reduction technique (LECO oxide analyzer) and Raman spectroscopy. ZrO 2 precipitates were formed with n Zr /n O # 0.5, while ZrO 2 was converted to Zr 2 OF x 6Àx complexes with n Zr /n O > 0.5. The maximum amount of Zr 2 OF x 6Àx complexes in FLiNaK melts was found to be 0.020 mol kg À1 . With an initial oxide concentration lower than 0.020 mol kg À1 and the required amount of ZrF 4 , the free oxide in FLiNaK melts could be completely converted to Zr 2 OF x 6Àx complexes, which would further prevent the formation of UO 2 precipitates. Fig. 9 The Raman spectra of UO 2 (ref. 38) ore and the bottom precipitates taken from the solidified FLiNaK-UF 4 (0.007 mol kg À1 ) melts at initial oxide ¼ 0.020 mol kg À1 and n Zr /n O ¼ 0. Fig. 8 The solidified FLiNaK melts with initial oxide at 0.020 mol kg À1 and different n Zr /n O ; (a) n Zr /n O ¼ 0; (b) n Zr /n O ¼ 7.0. 40712 | RSC Adv., 2015, 5, 40708-40713This journal is

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Section: Chemical Interactions Between Zirconium and Free Oxide In Momentioning

confidence: 73%

Section: Chemical Interactions Between Zirconium and Free Oxide In Momentioning

confidence: 99%

Chemical interactions between zirconium and free oxide in molten fluorides

et al. 2015

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“…On the one hand, when the added RE 2 O 3 was lower than solubility, all the added RE 2 O 3 chemically reacted with melts to form REOF and then completely dissolved in the melts. On the other hand, when the added RE 2 O 3 was higher than solubility, to add RE 2 O 3 continuously not only didn't increase the concentration of RE ions but also reduce the content of REF 3 by form of REOF sunk to the bottom according to references [11,22,13]. By linear fitting the curves in Fig.…”

Section: Resultsmentioning

confidence: 99%

“…In recent years, the solubility of REO in fluoride melts was widely researched [10][11][12][13][14][15][16][17][18][19][20][21]. It was found that the solubility was relatively low and the melts with high temperature and strong corrosiveness so that there were difficulties for accurate measuring the concentration of REO in fluoride melts.…”

Section: Introductionmentioning

confidence: 99%

Chemical titration method for Determination of Concentration of REO in Rare Earth Fluoride Melts

Zhu¹,

Sun²,

Liu³

et al. 2017

Proceedings of the 2017 International Conference on Material Science, Energy and Environmental Engineering (MSEEE 2017)

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Abstract. In the present study, chemical titration method for determination of concentration of REO in REF 3 -LiF-RE 2 O 3 melts was investigated. The melts with the composition of 40mol%REF 3 -60mol%LiF (RE=La and Nd) was taken as object for illustrating the measurement of concentration and solubility of REO by the chemical titration method. Then the changing of REO concentration in 40mol%REF 3 -60mol%LiF melts with electrolytic time in practical electrolysis production was studied. The concentration of REO decreases with the electrolytic time, and rate of the decreasing also declines with the electrolytic time. And the reasonable time interval for REO addition was recommended defining as 1.75 h which is very close to the empirical value 2 h, This would also illustrate the reliability of chemical titration method on determination of concentration of REO in the melts.

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“…[17,18] For the related research on lanthanide oxyfluoride, in addition to lanthanum oxyfluoride, there were only relevant reports on neodymium and lutetium oxyfluorides using Raman spectroscopy. [19,20] Combined with these above studies, the structural information of fluorides in the melt has been obtained by experimental and theoretical methods, but these studies were mainly focused on lanthanum fluoride, and so far, to the best of our knowledge, no study has been devoted to investigate the cerium fluoride and oxyfluoride species in molten salt. Raman spectroscopy has been widely recognized as one of the key methods to study the microstructure of molten salt with the aid of theoretical calculations.…”

Section: Introductionmentioning

confidence: 99%

In situ high temperature Raman and DFT analysis of cerium fluoride and oxyfluoride structures in molten FLiNaK

Cui

Wang

2021

J Raman Spectroscopy

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In order to investigate the species in the FLiNaK-CeF 3 and FLiNaK-CeF 3 -Li 2 O melts, in situ high temperature Raman spectroscopy was used with the aid of density functional theory (DFT) calculation. In molten FLiNaK, the CeF 6 3− octahedra affected by alkali cations were identified to be the predominan species. Binuclear cerium oxyfluoride anions Ce 2 OF 8 4− and Ce 2 OF 10 6− were formed after adding O 2− into the molten FLiNaK-CeF 3 (20 mol%) mixtures. Both of these two species were predicted to have Ce−O−Ce geometries with two CeF 4 /CeF 5 moieties bridged by a single oxygen atom.

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An in situ spectroscopic study of the local structure of oxyfluoride melts: NMR insights into the speciation in molten LiF–LaF₃–Li₂O systems

Cited by 14 publications

References 84 publications

Chemical interactions between zirconium and free oxide in molten fluorides

Chemical interactions between zirconium and free oxide in molten fluorides

Chemical titration method for Determination of Concentration of REO in Rare Earth Fluoride Melts

In situ high temperature Raman and DFT analysis of cerium fluoride and oxyfluoride structures in molten FLiNaK

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An in situ spectroscopic study of the local structure of oxyfluoride melts: NMR insights into the speciation in molten LiF–LaF3–Li2O systems

Cited by 14 publications

References 84 publications

Chemical interactions between zirconium and free oxide in molten fluorides

Chemical interactions between zirconium and free oxide in molten fluorides

Chemical titration method for Determination of Concentration of REO in Rare Earth Fluoride Melts

In situ high temperature Raman and DFT analysis of cerium fluoride and oxyfluoride structures in molten FLiNaK

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An in situ spectroscopic study of the local structure of oxyfluoride melts: NMR insights into the speciation in molten LiF–LaF₃–Li₂O systems