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Bio-inspired membranes for adsorption of arsenic via immobilized L-Cysteine in highly hydrophilic electrospun nanofibers

David Picón, Nicolás Torasso, José Roberto Vega‐Baudrit, Silvina Cerveny, Silvia Goyanes

2022Process Safety and Environmental Protection41 citationsDOIOpen Access PDF

Abstract

Arsenic is a concern for its ubiquity in the environment and its accumulative and toxic properties. Water is often contaminated with this chemical, so developing simple, scalable, and green water treatment technologies is urgently needed. We show here that the ability of the L-Cysteine biomolecule to form complexes with arsenic inspires its use as a natural bio-inspired sorbent to develop advanced functional materials. We establish for the first time a way to chemically anchor L-Cysteine (L-Cys) inside highly hydrophilic nanofibers to create a membrane capable of lowering As(V) concentration below the WHO limit of 10 g/L. A homogeneous precursor mixture of an aqueous solution of PVA and L- Cys (5 wt% and 10 wt% of L-Cys with respect to PVA) was electrospun to obtain a nanofibrous membrane. Successful immobilization of L-Cys within PVA nanofibers is achieved during heat treatment at 190 C. It occurs through esterification reactions between the hydroxyl group on the PVA chain and the carboxylic acid on L-Cys. Arsenic sorption (as As (V)) was assessed by batch experiments in aqueous media and at a controlled pH range.

Topics & Concepts

ArsenicAdsorptionNanofiberAqueous solutionMembraneSorptionChemistryElectrospinningSorbentChemical engineeringBiomoleculeNanocompositePolymerOrganic chemistryEngineeringBiochemistryAdvanced biosensing and bioanalysis techniquesCarbon and Quantum Dots ApplicationsGraphene and Nanomaterials Applications
Bio-inspired membranes for adsorption of arsenic via immobilized L-Cysteine in highly hydrophilic electrospun nanofibers | Litcius