Controlled Surface Engineering of Chitosan Hydrogels: Alkali/Urea Dissolution for Ratio-Specific Neodymium and Praseodymium Recovery
John Earwood, Baolin Deng

TL;DR
A new method for selectively extracting neodymium and praseodymium in specific ratios using engineered chitosan hydrogels is developed.
Contribution
The first demonstration of ratio-controlled extraction of adjacent lanthanides in a single polymer matrix.
Findings
NdPr-AUCH-11 achieved uptake capacities of 19.85 mg/g for Nd(III) and 16.89 mg/g for Pr(III).
NdPr-AUCH-41 maintained a 3.07:1 Nd:Pr selectivity in competitive environments.
Thermodynamic analysis showed lower energy requirements for Nd(III) binding compared to Pr(III).
Abstract
Rare earth elements (REEs) are critical for advanced technologies, with neodymium and praseodymium being essential to high-performance permanent magnets. The separation of these adjacent lanthanides represents a significant challenge due to their nearly identical chemical properties, with traditional chitosan surfaces exhibiting limited discrimination between chemically similar elements. Current separation methods require multiple processing steps and cannot maintain predetermined compositional ratios. Engineered polymer interfaces with controlled binding site distribution represents a critical advancement for selective separation, but achieving ratio-controlled extraction of adjacent elements remains challenging. Here, we demonstrate a novel interface engineering approach using alkali/urea dissolution to restructure chitosan networks, creating dual-template alkali/urea chitosan…
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Taxonomy
TopicsExtraction and Separation Processes · Geochemistry and Elemental Analysis · Radioactive element chemistry and processing
