Rational design, fabrication and characterization of a thiol-rich 3D-porous hypercrosslink polymer as a new engineered Hg2+ sorbent: enhanced selectivity and uptake

Abadast, Fatemeh; Mouradzadegun, Arash; Ganjali, Mohammad Reza

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Royal Society of Chemistry, New Journal of Chemistry, 13(41), p. 5458-5466

DOI: 10.1039/c7nj00663b

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Rational design, fabrication and characterization of a thiol-rich 3D-porous hypercrosslink polymer as a new engineered Hg2+ sorbent: enhanced selectivity and uptake

Journal article published in 2017 by Fatemeh Abadast, Arash Mouradzadegun

, Mohammad Reza Ganjali

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Abstract

A new synergy between a porous matrix and active sites was developed to form a heterogeneous adsorbent for high efficiency and high selectivity mercury removal in drinking water.

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Rational design, fabrication and characterization of a thiol-rich 3D-porous hypercrosslink polymer as a new engineered Hg2+ sorbent: enhanced selectivity and uptake

Abstract