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Stability of aqueous neodymium complexes in carbonate-bearing solutions from 100–600 °C

Margaret E. Reece, Artas Migdisov, Anthony E. Williams‐Jones, Andrew Strzelecki, Laura Waters, Hakim Boukhalfa, Xiaofeng Guo

2025Communications Earth & Environment7 citationsDOIOpen Access PDF

Abstract

Rare earth element exploration requires a quantitative understanding of factors governing their mobilization and economic concentration. However, the behavior of rare earth elements in carbonate-bearing hydrothermal fluids associated with carbonatite-hosted deposits is poorly understood, and conflicting mechanisms of rare earth transport by anionic ligands and alkali behavior have been described. Here, we report quantitative data to characterize the role of carbonate-bearing solutions in the hydrothermal mobilization of neodymium. Solubility studies of neodymium phosphate were performed at temperatures ranging from 100 to 600 °C in carbonate-bearing solutions. The thermodynamic data determined for the predominant complex were used to model the separation of neodymium from thorium in a simple flow-through system based on fluid and mineral compositions characteristic of carbonatite deposits. Our data suggest that neodymium transport is controlled by the stability of the carbonate species NdCO3OHo, and at temperatures of 500–600 °C, the concentrations of neodymium in solutions can reach ~1000 ppm. Neodymium transport is controlled by the stability of carbonate-bearing solutions, according to experimental solubility studies investigating the solubility of monazite in alkaline aqueous fluids.

Topics & Concepts

NeodymiumCarbonateBearing (navigation)Aqueous solutionGeologyChemistryPhysical chemistryOrganic chemistryPhysicsComputer scienceOpticsArtificial intelligenceLaserRadioactive element chemistry and processingChemical and Physical Properties in Aqueous SolutionsExtraction and Separation Processes
Stability of aqueous neodymium complexes in carbonate-bearing solutions from 100–600 °C | Litcius