Abstract
Single pot system in chemical reduction via bottom-up approach was used for the synthesis of core shell nanoscale zerovalent iron (CS-nZVI). CS-nZVI was characterized by a combination of physicochemical and spectroscopic techniques. Data obtained showed BET surface area 20.8643 m2/g, t-Plot micropore volume 0.001895 cm3/g, BJH volume pores 0.115083 cm3/g, average pore width 186.9268 Å, average pore diameter 240.753 Å, PZC 5.24, and pH 6.80. Surface plasmon Resonance from UV-Vis spectrophotometer was observed at 340 nm. Surface morphology from SEM and TEM revealed a spherical cluster and chain-like nanostructure of size range 15.425 nm −97.566 nm. Energy Dispersive XRF revealed an elemental abundance of 96.05% core shell indicating the dominance of nZVI. EDX showed an intense peak of nZVI at 6.2 keV. FTIR data revealed the surface functional groups of Fe–O with characteristics peaks at 686.68 cm−1, 569.02 cm−1 and 434 cm−1. In a batch technique, effective adsorption of endocrine disruptive Cu(II) ions was operational parameters dependent. Isotherm and kinetics studies were validated by statistical models. The study revealed unique characteristics of CS-nZVI and its efficacy in waste water treatment.
Highlights
Absorption band of core shell nanoscale zerovalent iron (CS-nZVI) was observed at 340 nm
Adsorption of endocrine disruptive copper ions was attained at optimum conditions
Equilibrium data were described by Freundlich and Langmuir isotherm models with R2>0.96
Summary
Bottom-up approach synthesis of core-shell nanoscale zerovalent iron (CS-nZVI): Physicochemical and spectroscopic characterization with Cu(II) ions adsorption application. FTIR data revealed the surface functional groups of Fe–O with characteristics peaks at 686.68 cm−1, 569.02 cm−1 and 434 cm−1. Method name: Physicochemical and Spectroscopic Characterization of CoreshellnZVI with Application in Endocrine Disruptive Cu(II) ions Adsorption Keywords: Core shell nZVI, Characterization, Surface chemistry, Morphology, Remediation, Endocrine disruptive compounds, Isotherms, Kinetics, Statistical validity Article history: Received 22 March 2020; Accepted 22 June 2020; Available online 25 June 2020. Subject Area: More specific subject area: Method name: Name and reference of original method: Resource availability: Environmental Science Nanochemistry, Adsorption, Environmental Engineering Physicochemical and Spectroscopic Characterization of CoreshellnZVI with Application in Endocrine Disruptive Cu(II) ions Adsorption A.O. Dada, F.A. Adekola and E.O. Odebunmi.
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