As (III) removal using superparamagnetic magnetite nanoparticles synthesized using Ulva prolifera − optimization, isotherm, kinetic and equilibrium studies.

Autor:	Selvaraj, Raja¹ (AUTHOR), Murugesan, Gokulakrishnan² (AUTHOR), Rangasamy, Gayathri³ (AUTHOR), Bhole, Ruchi¹ (AUTHOR), Dave, Niyam⁴ (AUTHOR), Pai, Shraddha¹ (AUTHOR), Balakrishna, Keshava⁵ (AUTHOR), Vinayagam, Ramesh¹ (AUTHOR) ramesh.v@manipal.edu, Varadavenkatesan, Thivaharan^1,4 (AUTHOR) thivaharan.v@manipal.edu
Předmět:	Arsenic removal (Water purification) Heavy metals Magnetite Ulva Nanoparticles Langmuir isotherms
Zdroj:	Chemosphere. Dec2022:Part 1, Vol. 308, pN.PAG-N.PAG. 1p.
Abstrakt:	In this study, magnetite nanoparticles (MNPs) were synthesized using the seaweed – Ulva prolifera , an amply found marine source in the Western coastal regions of India. The surface and other properties of MNPs were characterized by many sophisticated methods. Spherical nanoclusters were observed in the FESEM image and iron and oxygen elements were seen in EDS results. XRD peaks were consistent with magnetite standards and MNPs had good crystallinity. FTIR portrayed the specific signals for MNPs and TGA profile ascertained the thermal stability. Magnetic saturation of 41.84 emu/g with negligible hysteresis loop substantiated the superparamagnetism. XPS pointed out the presence of Fe and O with oxidation states specific for MNPs, and the results were consistent with EDS. BET revealed a high specific surface area (144.98 m2/g) of MNPs with mesopores. The synthesized MNPs were used as nanoadsorbent for the removal of As (III) from aqueous solution. The central composite design was used for optimizing As (III) adsorption on MNPs. The optimum conditions were found out as 97.5% at pH: 9, rotation speed: 150 rpm, time: 90 min, and MNPs dosage: 1.15 g/L. The adsorption process fitted in a better way with the Langmuir isotherm and pseudo-second-order model. The highest adsorption capacity was 12.45 mg/g, which is substantially larger than the documenter reports. The spontaneous and endothermic nature of adsorption were ascertained from thermodynamic studies. The results suggested that the synthesized MNPs using the extract of U. prolifera could be alternative nanoadsorbents for eliminating toxic heavy metals from waste streams. [Display omitted] • Magnetite nanoparticles were synthesized using Ulva prolifera aqueous extract. • Spherical nanoclusters were seen in FESEM image. • Enhanced specific surface area of 144.98 m2/g with mesoscopic structure was noticed. • As (III) adsorption using magnetite nanoparticles with 12.45 mg/g was obtained. [ABSTRACT FROM AUTHOR]
Databáze:	GreenFILE
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