| Literature DB >> 30286550 |
Shenping Zhang1, Yankai Li1, Chunhong Shi2, Fangyuan Guo1, Congze He3, Zan Cao4, Jun Hu5, Changzheng Cui6, Honglai Liu1.
Abstract
Adsorption is recognized as one of the most efficient approaches for antibiotics removal from water. Inspired by the enzyme-substrate interaction model, we proposed induced-fit adsorption (IFA) model, and rationally designed and fabricated diol-based porous organic polymers (POPs) as adsorbents for tetracycline (TC) removal. For 2,3-naphthalenediol-based POP (NTdiol-POP), the preferable geometry of diol-groups contributed to the high binding energy with TC species and flexible methylene linkages between neighboring rigid naphthalene rings gave rise to precisely matching between TC species and adsorbents, that is, the induced-fit conformation change. As a result, NTdiol-POP exhibited a high saturated adsorption capacity of 155.8 mg g-1. More importantly, NTdiol-POP exhibited excellent TC removal efficiencies in both concentrated solution (96% for 4 p.p.m) and trace level solution (97% for 250 p.p.b).Entities:
Keywords: Functional hydroxyl groups; Induced-fit adsorption; Multi-hydrogen bonding; Porous organic polymers; Tetracycline antibiotics removal
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Year: 2018 PMID: 30286550 DOI: 10.1016/j.chemosphere.2018.09.003
Source DB: PubMed Journal: Chemosphere ISSN: 0045-6535 Impact factor: 7.086