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Biochar/nano-zerovalent zinc-based materials for arsenic removal from contaminated water

Israr Masood ul Hasan, Haram Javed, Muhammad Mahroz Hussain, Muhammad Bilal Shakoor, Irshad Bibi, Muhammad Shahid, Farwa, Nengneng Xu, Qunshan Wei, Jinli Qiao, Nabeel Khan Niazi

2022International Journal of Phytoremediation33 citationsDOI

Abstract

In this study, we explored the potential of a newly prepared nano-zero valent zinc (nZVZn), biochar (BC)/nZVZn and BC/hydroxyapatite-alginate (BC/HA-alginate) composites for the removal of inorganic As species from water. Relatively, higher percentage removal of As(III) and As(V) was obtained by nZVZn at pH 3.4 (96% and 94%, respectively) compared to BC/nZVZn (90% and 88%) and BC/HA-alginate (88% and 80%) at pH 7.2. Freundlich model provided the best fit (R2 = up to 0.98) for As(III) and As(V) sorption data of all the sorbents, notably for nZVZn. The pseudo-second order model well-described kinetics of As(III) and As(V) (R2 = 0.99) sorption on all the sorbents. The desorption experiments demonstrated that the As removal efficiency, up to the third sorption/desorption cycle, was in the order of nZVZn ∼ BC/HA-alginate (88%) > BC/nZVZn (84%). The Fourier transform infrared spectroscopy depicted that the –OH, –COOH, Zn–O and Zn–OH surface functional groups were responsible for the sorption of As(III) or As(V) on the sorbents investigated here. This study highlights that removal of As species from water by BC/nZVZn composite can be compared with nZVZn, suggesting that integrating BC with nZVZn could efficiently remove As from As-contaminated drinking water.

Topics & Concepts

BiocharZerovalent ironArsenicZincEnvironmental chemistryContaminated waterContaminationEnvironmental remediationChemistryNano-Environmental scienceMaterials scienceMetallurgyAdsorptionBiologyPyrolysisEcologyOrganic chemistryComposite materialArsenic contamination and mitigationEnvironmental remediation with nanomaterialsAdsorption and biosorption for pollutant removal
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