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Synergistic dual-functionalities of starch-grafted-styrene hydrophilic porous resin for efficiently removing bisphenols from wastewater

CHEMICAL ENGINEERING JOURNAL [2022]
Wenjing Yuan, Liqin Zhou, Zhaoqiang Zhang, Yunpan Ying, Weidong Fan, Kungang Chai, Ziqi Zhao, Zhongwei Tan, Fang Shen, Hongbing Ji
ABSTRACT

Highly efficient remediation of bisphenols (BPs) contaminated wastewater by adsorption is intriguing but remains challenging. Herein, we present a starch-grafted-styrene hydrophilic porous resin (SGS-HPR) showing excellent BPs adsorption capacity, through simple graft copolymerization and then external knitting strategy. The typical influencing factors of graft copolymerization and external crosslinking processes were investigated systematically. A series of characterization experiments verified the successful fabrication of SGS-HPR and manifested that the optimum product, SGS-HPR 7 , possesses a hierarchical porous structure with strong hydrophilicity. The abundant presence of starch chain in SGS-HPR 7 , not only increased the hydrophilicity but also enhanced the adsorption affinity, making SGS-HPR 7 exhibit remarkable removal ability toward BPs. The adsorption performance of SGS-HPR 7 was studied systematically in static mode. The results showed that SGS-HPR 7 can adsorb BPs quickly with a stable ability irrespective of the varying aqueous environments. Besides, the continuous adsorption and regeneration experiments were conducted using bisphenol A (BPA) as the model BPs. The adsorbed BPA can be efficiently desorbed by ethanol elution, and the regenerated SGS-HPR 7 showed great recyclability. Interestingly, SGS-HPR 7 also retained the superior adsorption capacity and marvelous regeneration ability in the continuous adsorption experiments. Further, according to theoretical calculation studies, the hydrogen-bonding and π-π stacking interactions involved mechanism was uncovered clearly. Collectively, this work provides a new convenient strategy to fabricate new highly hydrophilic bio-based adsorbent for BPs removal.

MATERIALS

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