Sorption of Perrhenate Ions by a New Anion Exchanger Based on an Oligomer of Epichlorohydrin and 4-vinylpyridine

Abstract: <p>In this study, oligomer epichlorohydrine (OECH) was crosslinked with 4-vinylpyridin (VP) present initiator of peroxide benzoyl (BP). The resulting anionite (OECH-VP) was characterized by scanning<br /> electron microscopy (SEM) and tested for perrhenate ions  sorption. The new macropore anion exchange resin was  synthesized by polycondensation of epichlorohydrin oligomer and 4-vinylpyridine, the static exchange capacity (SEC) of which is equal to 6.75 mg-equiv∙g^-1 in 0.1 M… Show more

“…This breakthrough in vanadium separation holds significant potential for diverse industrial applications [43]. Additionally, a macro-pore anion exchange resin synthesized using a polycondensation method involving epichlorohydrin oligomer and 4-vinylpyridine demonstrated a static exchange capacity (SEC) of 6.75 meq/g for vanadium in a 0.1 M HCl solution [44].…”

Highly efficient recovery of vanadium from Abu Zeneima ferruginous siltstone, Southwestern Sinai, Egypt, by a novel polyimine‐based chelating ligand

“…This breakthrough in vanadium separation holds significant potential for diverse industrial applications [43]. Additionally, a macro-pore anion exchange resin synthesized using a polycondensation method involving epichlorohydrin oligomer and 4-vinylpyridine demonstrated a static exchange capacity (SEC) of 6.75 meq/g for vanadium in a 0.1 M HCl solution [44].…”

Highly efficient recovery of vanadium from Abu Zeneima ferruginous siltstone, Southwestern Sinai, Egypt, by a novel polyimine‐based chelating ligand