Examination of Molten Salt Reactor Relevant Elements Using Hydrothermal Synthesis

Windorff, Cory J.; Chemey, Alexander T.; Sperling, Joseph; Klamm, Bonnie E.; Albrecht‐Schönzart, Thomas E.

doi:10.1021/acs.inorgchem.0c00360

Cited by 10 publications

(10 citation statements)

References 46 publications

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“…The solid-state UV/vis/NIR spectrum of Np IV L 2 reveals an intense broad charge transfer band with λ max = 493 nm accounting for the orange coloration of the crystals (Figure ). Several weak absorptions between 500 and 1300 nm are assigned to the Laporte-forbidden 5f → 5f transitions, as observed in other solid-state spectra of Np IV compounds. ,,− Solution-phase UV/vis/NIR in toluene reveals an intense broad band similar to that of other M IV L 2 ( M = Ce , U , Th , Hf , Zr ,) complexes. Despite our best attempts, however, the Laporte forbidden 5f → 5f transitions of Np IV L 2 were not observed in the solution phase, as was the case for U IV L 2 .…”

Section: Spectroscopymentioning

confidence: 99%

Exploring the Oxidation States of Neptunium with Schiff Base Coordination Complexes

et al. 2020

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A pair of neptunium Schiff base coordination complexes, Np VI O 2 L(MeOH) and Np IV L 2 {H 2 L = N,N′-bis[(4,4′-diethylamino)salicylidene]-1,2-phenylenediamine}, have been synthesized and analyzed by several characterization methods including single-crystal X-ray diffraction, electronic absorption, 1H NMR, cyclic voltammetry, and theoretical interpretation. Structural analysis reveals that Np VI O 2 L(MeOH) and Np IV L 2 are isomorphous with the previously reported U VI O 2 L(MeOH) and M IV L 2 (M = Pu, Ce, U, Th) complexes, respectively, allowing for a direct comparison across the series. The reduction of Np VI O 2 L(MeOH) in situ or direct synthesis from a (NpVO2)+ source shows evidence of a pentavalent neptunyl (Np V O 2 L) x n– species as determined by UV/vis/NIR and 1H NMR spectroscopy. The synthesis of (Np V O 2 L) x n– directly from a (NpVO2)+ starting material gives a similar spectrum. Theoretical analysis offers insight into the electronic structure for a better understanding of the bonding patterns and relative stability of the different oxidation states. Computational results show that the Np–L covalent interactions in Np IV L 2 are similar to those in the Np VI O 2 L(MeOH) complex, indicating that neither the presence of the axial oxo ligands nor the oxidation state significantly modify the nature of the Np–L bonds.

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Section: Spectroscopymentioning

confidence: 99%

Exploring the Oxidation States of Neptunium with Schiff Base Coordination Complexes

et al. 2020

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“…The investigators probed the phases beyond their structures by examining the optical properties and conducting a thorough analysis of bonding interactions . This work is critical considering the development of advanced reactor designs, including the molten salt reactor, which might use high‐fluoride content salt eutectics . Recently, Scheibe et al.…”

Section: Figurementioning

confidence: 99%

“…[14] This work is criticalc onsidering the development of advanced reactor designs, including the molten salt reactor, whichm ight use high-fluoridec ontent salt eutectics. [15] Recently,S cheibe et al reported on the synthesis and structures of MAnF 6 •3H 2 O( M= Mn 2 + ,Z n 2 + ;A n= Np 4 + ,P u 4 + ), an ovel series of transition metal actinide fluorides that also represent the first example of at ransition metal-containing plutonium fluoride. [16] In our search for phases containing surrogates that might functiona sh osts for plutonium substitution, we investigated the Na n M(Ln/An) 6 F 30 (n = 3o r4;M= divalent or trivalent metal; Ln = Ce 4 + ,A n= Th 4 + ,U 4 + )s eries as ap otentials tructural candidatef or plutonium inclusion on account of the exceedingly stablen ature of the phases and the ability to incorporate ad iverse range of metalc ations into the structure.…”

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confidence: 99%

Expansion of the Na₃M^III(Ln/An)₆F₃₀ Series: Incorporation of Plutonium into a Highly Robust and Stable Framework

Pace

Klepov

Deason

et al. 2020

Chemistry A European J

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Na n MAn 6 F 30 is an extremelyv ersatile framework structure for incorporating tetravalent actinides (An) and cerium along with divalent or trivalent d-metals (M); moreover,t he structuree xhibits ah igh resistancet oh arsh chemical conditions. This extreme robustnessc an potentially be exploited fort he sequestration of plutonium in a stable matrix;h owever, no Na n MPu 6 F 30 compounds have been reported so far.Herein, we present four new plutonium fluorides that have been prepared as single crystals by mild hydrothermals ynthesis methods. Structural characterizations revealed their compositionst ob eNa 3 AlPu 6 F 30 , Na 3 FePu 6 F 30 ,N a 3 CoPu 6 F 30 ,a nd Na 2.4 Mn 1.6 Pu 6 F 30 .S urprisingly,i nt he plutonium series, it was found that Co 2 + and Mn 2 + precursors oxidized to form Na 3 Co III Pu 6 F 30 and Na 2.4 Mn II/III 1.6 Pu 6 F 30 ,w hereas the analogous reactionsf or cerium result in reduction of the transition metal, even when beginning with aM 3 + precursor.W hile cerium is often used as as urrogate for plutonium, this work serves as an example that deviationsb etween their chemistries do occur.

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“…11−13 Molecular dynamic simulations on the molten AF−ThF 4 (A = Li, Na, K) mixtures at different molar percentages and temperatures revealed the dominance of ThF 8 4− and ThF 7 3− , depending on the alkali metals. 14−16 Apparently, there is no report regarding the thorium speciation in molten FLiBe that possesses different properties from those studied before, 17 and the correlation between experimental and theoretical results from vibrational spectroscopic studies has not been validated.…”

Section: ■ Introductionmentioning

confidence: 99%

“…Recent studies employing extended X-ray absorption fine structure (EXAFS) and nuclear magnetic resonance analyses on the LiF–ThF 4 system described the evolution from free to bridging fluorine between ThF x in the melts rich in ThF 4 . It appears that the coordination number of thorium varies between six and ten, with the dominant species depending on the alkali metal ion in molten fluorides, according to EXAFS analysis. − Molecular dynamic simulations on the molten AF–ThF 4 (A = Li, Na, K) mixtures at different molar percentages and temperatures revealed the dominance of ThF 8 4– and ThF 7 3– , depending on the alkali metals. − Apparently, there is no report regarding the thorium speciation in molten FLiBe that possesses different properties from those studied before, and the correlation between experimental and theoretical results from vibrational spectroscopic studies has not been validated.…”

Section: Introductionmentioning

confidence: 99%

On the Structures of Thorium Fluoride and Oxyfluoride Anions in Molten FLiBe and FLiNaK

2021

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The structures of thorium fluoride and oxyfluoride ions in molten FLiBe–ThF4 and FLiNaK–ThF4 were investigated by Raman spectroscopy and density functional theory calculations. Thorium fluorides are present in the form of ThF6 2– (O h ) and ThF7 3– (C 2v ) in molten FLiNaK–ThF4. Similar speciation was identified in FLiBe–ThF4, and the thorium fluoride anions are in equilibrium with free F– ions and beryllium fluoride anions, which are responsible for the red shift of the beryllium fluoride bands in the Raman spectra. With the addition of Li2O into the FLiNaK–ThF4 and FLiBe–ThF4 melts, the Th2OF10 4– anion with a linear Th–O–Th geometry was formed at the expense of thorium fluoride anions. The beryllium fluoride bands in the Raman spectra of FLiBe–ThF4 exhibit a blue shift upon Th2OF10 4– formation, which results from the release of free F– ions that can further react with beryllium fluoride. Insoluble thorium oxides were found in the FLiNaK and FLiBe melts at a Li2O concentration of 15 mol %, and the Th2OF10 4– anion is, therefore, a bridge connecting the soluble thorium fluorides and insoluble thorium oxides in molten fluorides.

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Examination of Molten Salt Reactor Relevant Elements Using Hydrothermal Synthesis

Cited by 10 publications

References 46 publications

Exploring the Oxidation States of Neptunium with Schiff Base Coordination Complexes

Exploring the Oxidation States of Neptunium with Schiff Base Coordination Complexes

Expansion of the Na₃M^III(Ln/An)₆F₃₀ Series: Incorporation of Plutonium into a Highly Robust and Stable Framework

On the Structures of Thorium Fluoride and Oxyfluoride Anions in Molten FLiBe and FLiNaK

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Examination of Molten Salt Reactor Relevant Elements Using Hydrothermal Synthesis

Cited by 10 publications

References 46 publications

Exploring the Oxidation States of Neptunium with Schiff Base Coordination Complexes

Exploring the Oxidation States of Neptunium with Schiff Base Coordination Complexes

Expansion of the Na3MIII(Ln/An)6F30 Series: Incorporation of Plutonium into a Highly Robust and Stable Framework

On the Structures of Thorium Fluoride and Oxyfluoride Anions in Molten FLiBe and FLiNaK

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Expansion of the Na₃M^III(Ln/An)₆F₃₀ Series: Incorporation of Plutonium into a Highly Robust and Stable Framework