Functionalized Ionic Porous Organic Polymers Exhibiting High Iodine Uptake from Both the Vapor and Aqueous Medium

Overview

Journal ACS Appl Mater Interfaces

Publisher American Chemical Society

Specialties Biomedical Engineering
Biotechnology

Date 2021 Jul 19

PMID 34279084

Citations 11

Authors

Arunabha Sen

Shivani Sharma

Subhajit Dutta

Mandar M Shirolkar

Gourab K Dam

Sumanta Let

Sujit K Ghosh

Affiliations

Soon will be listed here.

Abstract

Large-scale generation of radioactive iodine (I, I) in nuclear power plants pose a critical threat in the event of fallout, thus rendering the development of iodine sequestering materials (from both the vapor and aqueous medium) highly pivotal. Herein, we report two chemically stable ionic polymers containing multiple binding sites, including phenyl rings, imidazolium cations, and bromide anions, which in synergy promote adsorption of iodine/triiodide anions. In brief, exceptional iodine uptake (from the vapor phase) was observed at nuclear fuel reprocessing conditions. Furthermore, the ionic nature propelled removal of >99% of I from water within 30 min. Additionally, benchmark uptake capacities, as well as unprecedented selectivity, were observed for Ianions. The excellent affinity (distribution coefficient, ∼10 mL/g) enabled iodine capture from seawater-spiked samples. Moreover, iodine-loaded compounds showed conductivity (10 S/cm, 10 S/cm), placing them among the best known conducting porous organic polymers. Lastly, DFT studies unveiled key insights in coherence with the experimental findings.

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Fabrication of Polysulfone Beads Containing Covalent Organic Polymer as a Versatile Platform for Efficient Iodine Capture.

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Ultralight crystalline hybrid composite material for highly efficient sequestration of radioiodine.

Fajal S, Mandal W, Torris A, Majumder D, Let S, Sen A Nat Commun. 2024; 15(1):1278.

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