Issue 20, 2022

Novel easily separable core–shell Fe3O4/PVP/ZIF-8 nanostructure adsorbent: optimization of phosphorus removal from Fosfomycin pharmaceutical wastewater

Abstract

A new easily separable core–shell Fe3O4/PVP/ZIF-8 nanostructure adsorbent was synthesized and then examined for removal of Fosfomycin antibiotic from synthetic pharmaceutical wastewater. The removal process of Fosfomycin was expressed through testing the total phosphorus (TP). A response surface model (RSM) for Fosfomycin adsorption (as mg-P L−1) was used by carrying out the experiments using a central composite design. The adsorption model showed that Fosfomycin adsorption is directly proportional to core–shell Fe3O4/PVP/ZIF-8 nanostructure adsorbent dosage and time, and indirectly to initial Fosfomycin concentration. The removal increased by decreasing the pH to 2. The Fosfomycin removal was done at room temperature under an orbital agitation speed of 250 rpm. The adsorption capacity of core–shell Fe3O4/PVP/ZIF-8 nanostructure adsorbent reached around 1200 mg-P g−1, which is significantly higher than other MOF adsorbents reported in the literature. The maximum Langmuir adsorption capacity of the adsorbent for Fosfomycin was 126.58 mg g−1 and Fosfomycin adsorption behavior followed the Freundlich isotherm (R2 = 0.9505) in the present study. The kinetics was best fitted by the pseudo-second-order model (R2 = 0.9764). The RSM model was used for the adsorption process in different target modes.

Graphical abstract: Novel easily separable core–shell Fe3O4/PVP/ZIF-8 nanostructure adsorbent: optimization of phosphorus removal from Fosfomycin pharmaceutical wastewater

Supplementary files

Article information

Article type
Paper
Submitted
12 Feb 2022
Accepted
19 Apr 2022
First published
27 Apr 2022
This article is Open Access
Creative Commons BY-NC license

RSC Adv., 2022,12, 12823-12842

Novel easily separable core–shell Fe3O4/PVP/ZIF-8 nanostructure adsorbent: optimization of phosphorus removal from Fosfomycin pharmaceutical wastewater

M. O. Abdelmigeed, A. H. Sadek and T. S. Ahmed, RSC Adv., 2022, 12, 12823 DOI: 10.1039/D2RA00936F

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