Polyvinyl Alcohol-Conjugated L-Cysteine: A Novel Metal Pincer for Efficient Heavy Metal Ions Removal from Wastewater

A facilely prepared composite based on Polyvinyl alcohol anchored- L-cysteine (PVA-L-CYS) demonstrated efficient functionality in the elimination of heavy metals (Hg, Cr, Pb, and Cd) from working wastewater. The synthesis of the composite was validated through a comprehensive characterization utilizing various analytical techniques to ensure the composite's structural, chemical, and physical properties. At ambient temperature, pH of 4-5.5, interaction time of 15-20 minutes, and concentration of 200 mg/L metal ions, the composite exhibited a maximum retention capacity of 48.5, 25, 45.25, and 44.25 mg/g for Hg, Cr, Pb, and Cd, respectively. Langmuir modeling was establish to be more fitting to the practical results than Freundlich, providing theoretical values of 49.02, 25.97, 46.08, and 44.84 mg/g for Hg, Cr, Pb, and Cd, respectively. The kinetics of PVA-L-CYS composite was accurately predicted by model of the pseudo-first-order kinetic. Thermodynamic prospects indicated a spontaneous, exothermic, and favorable uptake process at low temperatures. Efficient elution of the heavy metal ions from the overloaded composite was performed using 1 M HNO3. In accordance with WHO and FAO guidelines, the successful elimination of working metal ions from wastewater utilizing the PVA-L-CYS composite was demonstrated in a single cycle before discharge into the marine environment. A facilely prepared composite based on Polyvinyl alcohol anchored-L-cysteine (PVA-L-CYS) demonstrated efficient functionality in the elimination of heavy metals (Hg, Cr, Pb, and Cd) from working wastewater. The composite exhibited a maximum retention capacity of 48.5, 25, 45.25, and 44.25 mg/g for Hg, Cr, Pb, and Cd, respectively. image