Spectroscopic and Electrochemical Investigation of Uranium and Neptunium in Chloride Room-Temperature Ionic Liquids

Abstract: To expand the breadth of knowledge of actinide chemistry in molten chloride salts, chloride room-temperature ionic liquids (RTILs) were used to probe the influence of RTIL cation on second-sphere coordination for anionic complexes of uranium and neptunium. Six chloride RTILs were studied to represent a range of cation polarizing strength, size, and charge density to correlate changes in the complex geometry and redox behaviors. Optical spectroscopy indicated that actinides were dissolved at equilibrium as octa… Show more

“…On the analytical forefront, the exciting but challenging chemistry of the f-block elements have benefitted immensely in the past with the advent of new and powerful spectroscopic techniques. − Nevertheless, the relatively old techniques such as UV–vis, fluorescence, cyclic voltametry etc., still serve as inevitable tools for the fundamental understanding of actinide chemistry. − …”

Pyridine Diphosphonate Ligand for Stabilization of Tetravalent Uranium and Neptunium in Aqueous Medium under Aerobic Conditions

“…On the analytical forefront, the exciting but challenging chemistry of the f-block elements have benefitted immensely in the past with the advent of new and powerful spectroscopic techniques. − Nevertheless, the relatively old techniques such as UV–vis, fluorescence, cyclic voltametry etc., still serve as inevitable tools for the fundamental understanding of actinide chemistry. − …”

Pyridine Diphosphonate Ligand for Stabilization of Tetravalent Uranium and Neptunium in Aqueous Medium under Aerobic Conditions

A novel triphenylamine-based fluorescent probe for high selectivity and sensitivity detection of UO22+ in water samples and living cells

Activation and Functionalization of the Uranyl Ion by Electrochemical Reduction