2022
DOI: 10.1021/acs.jpcc.1c09748
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Magnetic Separation of Rare-Earth Ions: Property Database and Kelvin Force Distribution

Abstract: This work bridges two gaps in the magnetic separation of rare-earth ions. (1) A material property database is provided for the solutal expansion coefficient and the magnetic susceptibility of 11 out of 17 trivalent rare-earths. (2) A novel protocol is developed to enhance and resolve the magnetic term of the Kelvin force. For that purpose, an assembly of partition magnets is created where the individual magnets function in the first quadrant of their magnetic hysteresis loop. The mutual reinforcement is quanti… Show more

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Cited by 5 publications
(6 citation statements)
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“…This is particularly emphasized for rare earth ions utilizing a magnetic field. Numerous works have been dedicated to this topic, focusing on the physicochemical aspects of the potential for separating metal ions based on differences in their magnetic susceptibility. The key to this concept lies in determining the magnetic susceptibility of individual ions and exploring their possible interactions in the presence of a magnetic field. Assessing the values of these parameters and scrutinizing the phenomena occurring under such conditions could provide significant utility.…”
Section: Resultsmentioning
confidence: 99%
“…This is particularly emphasized for rare earth ions utilizing a magnetic field. Numerous works have been dedicated to this topic, focusing on the physicochemical aspects of the potential for separating metal ions based on differences in their magnetic susceptibility. The key to this concept lies in determining the magnetic susceptibility of individual ions and exploring their possible interactions in the presence of a magnetic field. Assessing the values of these parameters and scrutinizing the phenomena occurring under such conditions could provide significant utility.…”
Section: Resultsmentioning
confidence: 99%
“…Thermodynamically, the magnetic field hardly affects the chemical potential and the thermodynamic equilibrium remains virtually unchanged [49]. It later became clear that the observed concentration changes in the field gradient could be explained by evaporation of the solvent in a set of experiments [50][51][52][53][54][55][56]. A completely filled and sealed cuvette does not show any inhomogeneity upon exposure to a magnetic field gradient [51].…”
Section: Magnetic Field Effects On Microscopic Dipolesmentioning
confidence: 99%
“…Magnetic field gradients of permanent magnets can also act on paramagnetic salt solutions in which the solvent is allowed to evaporate and the top layer of the fluid gains a higher concentration in a distillation process. Several experimental works show that placing a magnet on top of an insufficiently sealed cuvette containing paramagnetic salt solutions levitates the layer of higher concentration above the bulk fluid [50][51][52][53][54][55][56]. Without a magnet close to the liquid surface, this layer sinks in a Rayleigh-Taylor instability and mixes with the bulk solution.…”
Section: Overview Of Experimental Observations Of Magnetically Induce...mentioning
confidence: 99%
“…Die Grundlagen der magnetischen Separation dieser Ionenklasse einschließlich der damit verbundenen Mikrokonvektion wurden in mehreren Arbeiten, u. a. [114,115] aufgekla ¨rt.…”
Section: Heidenreich Wurden Neben Vielen Industrienahenunclassified