Formation and Spectra of Uranyl(V) Chloride in Molten Chloride Solvents

“…The main discrepancy in the literature data [4,5,[9][10][11] concerns the possibility of the formation of uranium(IV) ions as a product of decomposition of uranyl(VI) chloride. Absorption spectroscopy offers a convenient way for identifying uranium ions in different oxidation states.…”

“…Based on literature reports [4,5,[9][10][11], the following reactions, describing the thermal decomposition of uranyl(VI) chloride dissolved in a chloride melt, can be proposed: …”

“…Several U(V) complexes have been characterized in organic solvents [3] and uranium(V) species are stable in ionic solvents. The electronic absorption spectra of uranyl(V) chloro-complexes in chloride melts were reported nearly half a century ago [4,5]. Electrochemical and thermodynamic [6], and structural [7] studies of UO 2 + in high-temperature chloride melts have subsequently been performed, and the behavior of uranium(V) in low-temperature melts has also been considered [8].…”

“…Wilks [9] reported that during the decomposition of uranyl(VI) chloride dissolved in a chloride melt Cl 2 is evolved and U 3 O 8 is precipitated. According to Wenz and Adams [4], uranyl(V) ions are formed in the melt below 750 °C: at higher temperatures UO 2 is precipitated and a small amount of U(IV) ions is formed in the melt. Adams [5] and Stromatt [10] attributed the formation of UO 2 + ions in the melt to the reaction between UO 2 2+ and uranium dioxide.…”

On the formation of uranium(V) species in alkali chloride melts

“…The main discrepancy in the literature data [4,5,[9][10][11] concerns the possibility of the formation of uranium(IV) ions as a product of decomposition of uranyl(VI) chloride. Absorption spectroscopy offers a convenient way for identifying uranium ions in different oxidation states.…”

“…Based on literature reports [4,5,[9][10][11], the following reactions, describing the thermal decomposition of uranyl(VI) chloride dissolved in a chloride melt, can be proposed: …”

“…Several U(V) complexes have been characterized in organic solvents [3] and uranium(V) species are stable in ionic solvents. The electronic absorption spectra of uranyl(V) chloro-complexes in chloride melts were reported nearly half a century ago [4,5]. Electrochemical and thermodynamic [6], and structural [7] studies of UO 2 + in high-temperature chloride melts have subsequently been performed, and the behavior of uranium(V) in low-temperature melts has also been considered [8].…”

“…Wilks [9] reported that during the decomposition of uranyl(VI) chloride dissolved in a chloride melt Cl 2 is evolved and U 3 O 8 is precipitated. According to Wenz and Adams [4], uranyl(V) ions are formed in the melt below 750 °C: at higher temperatures UO 2 is precipitated and a small amount of U(IV) ions is formed in the melt. Adams [5] and Stromatt [10] attributed the formation of UO 2 + ions in the melt to the reaction between UO 2 2+ and uranium dioxide.…”

On the formation of uranium(V) species in alkali chloride melts

“…However, the Potentiometrie data did not give conclusive data on the number of Chlorides coordinated to U(V). The UV-vis-NIR spectrum of U(V) in acidic AICI3-BPC was similar to that of UCU" in SOCI2 [10] and nitromethane [11]. Dai and co-workers [12] found that although U(V) is stable in acidic AICI3-EMIC, upon making the molten salt basic, U(V) is reduced to U(rV) by the free chloride ion present in the basic system.…”

Electrochemistry and Spectroscopy of UO₂ ²⁺ in Addic AlCl₃-EMIC

Reduction of Uranyl(VI) Species in Alkali Chloride Melts