A molecular extraction process for vanadium based on tandem selective complexation and precipitation

Recycling vanadium from alternative sources is essential due to its expanding demand, depletion in natural sources, and environmental issues with terrestrial mining. Here, we present a complexation-precipitation method to selectively recover pentavalent vanadium ions, V(V), from complex metal ion mixtures, using an acid-stable metal binding agent, the cyclic imidedioxime, naphthalimidedioxime (H 2 CID III ). H 2 CID III showed high extraction capacity and fast binding towards V(V) with crystal structures showing a 1:1 M:L dimer, [V 2 (O) 3 (C 12 H 6 N 3 O 2 ) 2 ] 2− , 1 , and 1:2 M:L non-oxido, [V(C 12 H 6 N 3 O 2 ) 2 ] ̶ complex, 2 . Complexation selectivity studies showed only 1 and 2 were anionic, allowing facile separation of the V(V) complexes by pH-controlled precipitation, removing the need for solid support. The tandem complexation-precipitation technique achieved high recovery selectivity for V(V) with a selectivity coefficient above 3 × 10 5 from synthetic mixed metal solutions and real oil sand tailings. Zebrafish toxicity assay confirmed the non-toxicity of 1 and 2 , highlighting H 2 CID III ’s potential for practical and large-scale V(V) recovery. Amidst vanadium’s growing demand and environmental concerns in mining, the researchers, using naphthalimidedioxime, crafted a breakthrough method for eco-friendly recovery. Their acid-stable agent and non-toxic complexes offer a promising solution for large-scale vanadium recovery from diverse sources.