Phosphogypsum and residues
Assess REE potential in industrial by-products where spatial variability is poorly understood.
Rare earth element assessment
A resin-mediated workflow under development for rapid REE screening in phosphogypsum, phosphate residues, mine waste and other secondary raw material deposits.
White resin granules, benchtop XRF and REE spectrum screening with reference-lab verification.
Purpose
The concept links controlled leaching, selective resin capture, XRF measurement, ICP verification and spatial interpretation. It is an assessment and decision-support platform, not a public extraction claim.
Assess REE potential in industrial by-products where spatial variability is poorly understood.
Use resin-XRF for faster sample ranking and selected ICP-OES/MS checks for traceability.
Connect analytical results with depth, sampling geometry and preliminary distribution models.
SORBEX-REE builds on the SORBIONEX resin-XRF platform and extends it toward third-generation selective resins for rare earth capture from complex leachates. Each material stream requires its own validation of selectivity, XRF response and reference correlation.
Independent scientific verification
The proposed validation programme separates rapid resin-XRF screening from independent reference analysis. It is designed to establish where the method is reliable, quantify its limitations and prevent unverified analytical claims.
Planned micro-XRF and EDXRF studies of REE-loaded SORBEX resin targets will assess signal response, spectral overlaps, target homogeneity, measurement geometry and calibration strategy.
Selected leachates, resin fractions and solid samples will be checked by ICP-OES/MS with documented QA/QC to link REE concentration, resin loading and XRF response.
The method must demonstrate reproducible REE capture, measurable resin-XRF response, meaningful correlation with reference data, and clearly reported detection limits and matrix constraints.