Effects of atom substitutions and dissolved carbonate species on monazite electrophoretic mobility

Abstract: In this study, the atom substitutions that commonly affect the monazite lattice were considered as potential factors affecting the monazite electrophoretic mobility. The influence of light rare-earth elements (LREE) substitutions and the presence of thorium, calcium, and silicate within the monazite crystal lattice was also examined using a natural monazite and synthetic cerium, lanthanum and neodymium monazite materials. Electrophoretic mobility measurements performed after treatment in an electrolyte solutio… Show more

“…XPS and FTIR analyses were performed on synthetic lanthanum monazite materials produced using lanthanum hydrated phosphate with a lanthanum content of 51.88 wt% supplied by Alfa Aesar and identified as rhabdophane analogue via XRD. The lanthanum phosphate powder was placed in a recrystallised alumina crucible and thermally treated in an electric muffle furnace following the procedure detailed in Geneyton et al ( 2019) [14].…”

Advances in carboxylate collectors adsorption on monazite surface: Part 1 – Assessment of the hydroxylation and carbonation of surface lanthanide ions

“…XPS and FTIR analyses were performed on synthetic lanthanum monazite materials produced using lanthanum hydrated phosphate with a lanthanum content of 51.88 wt% supplied by Alfa Aesar and identified as rhabdophane analogue via XRD. The lanthanum phosphate powder was placed in a recrystallised alumina crucible and thermally treated in an electric muffle furnace following the procedure detailed in Geneyton et al ( 2019) [14].…”

Advances in carboxylate collectors adsorption on monazite surface: Part 1 – Assessment of the hydroxylation and carbonation of surface lanthanide ions

Synergistic adsorption of lanthanum ions and fatty acids for efficient rare-earth phosphate recovery: Surface analysis and ab initio molecular dynamics studies

Novel approach for processing complex carbonate-rich copper-cobalt mixed ores via reverse flotation