Embedded Hard Base Sites in 1D Covalent Organic Frameworks Enable Selective Photocatalytic Uranium Recovery from Rare Earth Leaching Solution
来源:ACS Publications
Selective uranium recovery from rare earth leaching solutions is hindered by competing ions and similar chemistry. Herein we propose a “framework-embedded hard base sites” strategy that simultaneously resolves selectivity and charge separation bottlenecks. By anchoring oxygen atoms as hard bases into 1D covalent organic frameworks (COFs), we create a dual-function platform where oxygen sites selectively capture uranyl ions while delocalizing excitons, lowering the exciton binding energy to 56.2 meV. The optimal COF-PODA with the highest density of oxygen sites achieves a high adsorption capacity of 1205 mg g–1 and reduction kinetics of 0.079 min–1. In actual rare earth leaching solution, it removes 99.5% of uranium with outstanding selectivity over lanthanides and retains more than 95% activity after six cycles. This work uncovers an unforeseen synergy between hard-base coordination and electronic modulation, establishing a new design route for advanced radionuclide photocatalysts.