Zhiqiang Wei scite author profile

From the perspective of environmental protection, high removal rate, reusability and degradability, Amino-functionalized porous hydrogel material P-(EA-β-CD/KHA/AC) was synthesized by introducing ethylamino cyclodextrin, humic acid and activated carbon, using polyacrylic acid as the carrier. The gel materials before and after adsorption were characterized by FTIR, XRD and XPS. The removal of organic matter (MB) and heavy metal ions (Cr (VI)) showed high adsorption capacity. At 298K and pH 8, the adsorption capacity of P-(EA-β-CD/KHA/AC) hydrogel for MB and Cr (VI) was as high as 262.31mg/g, 170.12mg/g, and the removal rate was 98.96 % and 70.27%. The adsorption behavior follows the pseudo-second-order kinetic equation, conforming the Langmuir model, and through intermolecular forces, π-π conjugation, chelation and other interactions, an entropy-increasing, endothermic, and spontaneous process is formed. The regeneration and degradability experiments of P-(EA-β-CD/KHA/AC) hydrogel were carried out, verified that it has recycling performance, the weight loss rate of degradation in water and acid-base buffer solution for 6 months reached 45.82%, 28.25% and 30.70%, respectively.

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Study on Amino-functionalized Porous Carbon Materials for MB and Cr(VI) Adsorption 1

Song

Chen

Niu

et al. 2022

Preprint

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In this study, amino-functionalized porous hydrogel material P-(EA-β-CD/KHA/AC) was synthesized by introducing ethylamino cyclodextrin, humic acid, and activated carbon, using polyacrylic acid as the carrier. The gel materials before and after adsorption were characterized by Fourier transform infrared spectroscopy, X-ray diffraction, and X-ray photoelectron spectroscopy. The removal of organic matter (methylene blue) and heavy metal ions (hexavalent chromium) showed high adsorption capacity. At 298 K and pH 8, the adsorption capacities of P-(EA-β-CD/KHA/AC) hydrogel for MB and Cr(VI) were as high as 262.31 and 170.12 mg/g, respectively, and the removal rates were 98.96% and 70.27%, respectively. The adsorption behavior follows the pseudo-second-order kinetic equation, conforming to the Langmuir model; and through intermolecular forces, π–π conjugation, chelation, and other interactions, entropy-increasing, endothermic, and spontaneous process is formed. The regeneration and degradability experiments of P-(EA-β-CD/KHA/AC) hydrogel were conducted and its recycling performance was verified.

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Zhiqiang Wei

Adsorption Properties of P-(Cm-Β-Cd/Hpcs/Kha/Ac) Hydrogel for Tetracycline Hydrochloride

Study on Amino-functionalized Porous Carbon Materials for MB and Cr(VI) Adsorption

Study on Amino-functionalized Porous Carbon Materials for MB and Cr(VI) Adsorption 1

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