Selenate removal from mine-influenced brine down to 20 μg L−1 was demonstrated through continuous photocatalytic reduction using nano-TiO2, highlighting UV reactor parameters and design considerations critical for practical real-world application.
In situ X-ray absorption spectroscopy and optical imaging confirm the role of selenium additives for enhancing power performance, increasing utilization, and suppressing undesirable side reactions in Li–sulphur batteries.
This study leverages a synergistically orchestrated dual-additive design in a composite-polymer-electrolyte to refine the electrode–electrolyte interfacial dynamics in solid-state Li–Se batteries.
Photocatalytic reduction removes selenium from industrial brine through tunable reduction pathways to either Se0(s) or H2Se(g).
We report the unusual aggregation behavior of cyanine dye 1,1′-diethyl-4,4′-carbocynine iodide (DECI), also known as kryptocyanine, which interestingly depends on the type of the ionic liquid (IL) present in the aqueous solutions of the dye.