Imidazolium‐Functionalized Chemically Robust Ionic Porous Organic Polymers (<i>i</i>POPs) toward Toxic Oxo‐Pollutants Capture from Water
Arunabha Sen, Subhajit Dutta, Gourab K. Dam, Partha Samanta, Sumanta Let, Shivani Sharma, Mandar M. Shirolkar, Sujit K. Ghosh
Abstract
Abstract Fabricating new and efficient materials aimed at containment of water contamination, in particular removing toxic heavy metal based oxo‐anions (e. g. CrO 4 2− , TcO 4 − ) holds paramount importance. In this work, we report two new highly stable imidazolium based ionic porous organic polymers ( i POPs) decorated with multiple interaction sites along with electrostatics driven adsorptive removal of such oxo‐anions from water. Both the i POPs (namely, i POP‐3 and i POP‐4) exhibited rapid sieving kinetics and very high saturation uptake capacity for CrO 4 2− anions (170 and 141 mg g −1 for i POP‐3 and i POP‐4 respectively) and ReO 4 − (515.5 and 350.3 mg g −1 for i POP‐3 and i POP‐4 respectively), where ReO 4 − anions being the non‐radioactive surrogative counterpart of radioactive TcO 4 − ions. Noticeably, both i POPs showed exceptional selectivity towards CrO 4 2− and ReO 4 − even in presence of several other concurrent anions such as Br − , Cl − , SO 4 2− , NO 3 − etc. The theoretical binding energy calculations via DFT method further confirmed the preferential interaction sites as well as binding energies of both i POPs towards CrO 4 2− and ReO 4 − over all other competing anions which corroborates with the experimental high capacity and selectivity of i POPs toward such oxo‐anions.