Enhanced Iodine Capture Using a Postsynthetically Modified Thione–Silver Zeolitic Imidazole Framework

Abstract: Efficient management of radionuclides that are released from various processes in the nuclear fuel cycle is of significant importance. Among these nuclides, radioactive iodine (mainly 129I and 131I) is a major concern due to the risk it poses to the environment and to human health; thus, the development of materials that can capture and safely store radioactive iodine is crucial. Herein, a novel silver–thione-functionalized zeolitic imidazole framework (ZIF) was synthesized via postsynthetic modification and a… Show more

“…The successful condensation reaction between the NH 2 groups of UiO-66-NH 2 and the COOH groups of thioglycolic acid is confirmed by the presence of the thiol group at 2555 cm –1 in the FT-IR spectra of UiO-66-NH-SH (1) (Figure S1a). − The observation is further supported by the transformation of the sharp NH 2 bending FT-IR peak (1649 cm –1 ) of UiO-66-NH 2 to a low-intensity broad peak, indicating the formation of an amide bond (Figure S1b). Also, in the case of UiO-66-NH-SH (1), the intensity of the NH–CO peak at 1568 cm –1 increases, while the intensity of the C–N peak at 1255 cm –1 weakened in comparison to UiO-66-NH 2 .…”

Silver Nanoparticle-Functionalized Postsynthetically Modified Thiol MOF UiO-66-NH-SH for Efficient CO₂ Fixation

“…The successful condensation reaction between the NH 2 groups of UiO-66-NH 2 and the COOH groups of thioglycolic acid is confirmed by the presence of the thiol group at 2555 cm –1 in the FT-IR spectra of UiO-66-NH-SH (1) (Figure S1a). − The observation is further supported by the transformation of the sharp NH 2 bending FT-IR peak (1649 cm –1 ) of UiO-66-NH 2 to a low-intensity broad peak, indicating the formation of an amide bond (Figure S1b). Also, in the case of UiO-66-NH-SH (1), the intensity of the NH–CO peak at 1568 cm –1 increases, while the intensity of the C–N peak at 1255 cm –1 weakened in comparison to UiO-66-NH 2 .…”

Silver Nanoparticle-Functionalized Postsynthetically Modified Thiol MOF UiO-66-NH-SH for Efficient CO₂ Fixation

Cu/Fe3O4 magnetic aerogel for the capture and immobilization of iodine anion from water

Experimental and computational insights into the iodine vapor capture by imine-and amine-linked covalent organic frameworks