Abstract

Residues of pharmaceutical and direct metabolites discharged into the aquatic environment have become a challenge for wastewater treatment facilities due to their increase in concentration and their different physicochemical properties. These emerging contaminants are daily detected in surface water and wastewater discharged by municipalities. To remediate the contaminated water, various methods are currently used including primary, secondary, and tertiary advanced treatments. However, some economic and environmental limitations have forced the scientific community to develop alternative disinfection processes to purify wastewater. As such, the adsorption strategy represents a “green” low-cost and effective solution to remove pollutants from water. In this study, a nanomaterial made of N,O-carboxymethyl chitosan (N,O-CMCS) was prepared using chitosan (CS) and monochloroacetic acid under various conditions. N,O-CMCS electrospun was synthetized with the copolymer polyethylene oxide (PEO) to create nanofiber membranes showing a better specificity toward diversified contaminants depending on the pH of medium. The developed adsorbent was used to remove fluoxetine (FLX) from aqueous solutions. The new nanomaterial was characterised using FTIR, NMR, and SEM techniques. Sorption batch tests were carried out using high-performance liquid chromatography and ultraviolet diode array detector (HPLC-UV DAD) under controlled pH experimental conditions to determine the contaminant removal capacity of the nanomaterial. The promising adsorption results obtained with N,O-CMCS/PEO nanofibers are among the best ones obtained so far in comparison to other commercial and synthetized adsorbents tested for FLX’s adsorption. Kinetic experiments were also performed to investigate effects of contact times on the FLX adsorption. Experimental results were fitted to both common kinetic models pseudo-first and second order. The latter kinetic model described the best the sorption on surface. It revealed a possible chemisorption mechanism with electrostatic bounding for N,O-CMCS/PEO nanofibers.

Highlights

  • The contamination of natural resources such as water remains one of the most challenging issues of modern-day society

  • This paper aims at the development of N,O-CMCS/polyethylene oxide (PEO) electrospun nanofibers, with a focus on the fundamentals of their manufacturing

  • It must be taken into account that if CS is not fully deacetylated, certain units of glucosamine and acetylglucosamine from the partial deacetylation of the parent chitin may interfere with the reaction [50] [51]

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Summary

Introduction

The contamination of natural resources such as water remains one of the most challenging issues of modern-day society. Even though most of these contaminants are detected at very low concentrations (ng/L to μg/L), many molecules (and/or their treatment by-products) possess biological activity They are daily discharged into water bodies and may cause severe environmental issues (e.g. detrimental effects to our natural water resources and aquatic organisms) if they are not properly removed [2] [3]. Pharmaceutical products are recognized as primary polluters retrieved in marine environments and ecosystems mainly after human or animal excretion [4] [5] [6] These pollutants are represented by a wide array of substances that include both non-prescription and prescription drugs [7]. Limited removal rates are frequently observed in wastewater treatment plants (WWTPs) for pharmaceuticals residues [11] [12]

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