Koen Binnemans
Katholieke Universiteit Leuven
684 Papers
4.8K Citations
Koen Binnemans is an academic researcher from Katholieke Universiteit Leuven. The author has contributed to research in topics: Ionic liquid & Chemistry. The author has an hindex of 85, co-authored 636 publications. Previous affiliations of Koen Binnemans include Kazan State Technological University & University of Arizona.
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Papers
Dosimetry and methodology of gamma irradiation for degradation studies on solvent extraction systems
Bart Verlinden,Peter Zsabka,Karen Van Hecke,Ken Verguts,Liviu-Cristian Mihailescu,Giuseppe Modolo,Marc Verwerft,Koen Binnemans,Thomas Cardinaels +8 more
TL;DR: In this article, a dosimetric assessment is made using different dosimeter systems in a pool-type irradiation facility, which has the advantage to be flexible in its arrangement of 60Co sources.
Liquid-liquid mass transfer in microfluidic reactors: Assumptions and realities of non-ideal systems
TL;DR: In this paper, the mass transfer coefficient, k L α, is used to benchmark the liquid-liquid mass transfer performance in a microfluidic reactors and it is concluded that the high viscosity of the ionic liquid causes two-phase slip, greatly reducing the efficiency of the micro-fluidic reactor.
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•Journal Article
On the complementarity of absorption and MCD spectroscopy
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Reversible electrodeposition and stripping of magnesium from solvate ionic liquid–tetrabutylammonium chloride mixtures
TL;DR: The physicochemical properties of three new magnesium-containing solvate ionic liquids are reported in this paper, revealing a solvent separated ion pair structure at room temperature, and reversible electrodeposition and stripping of magnesium from mixtures of these solvates and tetra-n-butylammonium chloride is described.
Separation of Scandium from Hydrochloric Acid-Ethanol Leachate of Bauxite Residue by a Supported Ionic Liquid Phase.
TL;DR: Scandium and iron were separated from other elements in the leachate by column chromatography and the formation of the anionic tetrachloroferrate(III) complex, [FeCl4]−, enabled the selective elution.
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