Arsenic adsorption on goethite nanoparticles produced through hydrazine sulfate assisted synthesis method

M.K. Ghosh; G.E.J. Poinern; T.B. Issa; P. Singh

doi:10.1007/s11814-011-0137-y

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Arsenic adsorption on goethite nanoparticles produced through hydrazine sulfate assisted synthesis method

Journal article

Peer reviewed

Arsenic adsorption on goethite nanoparticles produced through hydrazine sulfate assisted synthesis method

M.K. Ghosh, G.E.J. Poinern, T.B. Issa and P. Singh

Korean Journal of Chemical Engineering, Vol.29(1), pp.95-102

2012

DOI: https://doi.org/10.1007/s11814-011-0137-y

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Abstract

Goethite nanoparticles synthesized using hydrazine sulfate as a modifying agent were evaluated for As(V) adsorption capacity. The nanoparticles were characterized for their morphological and structural features. The precipitated goethite particles were spherical with particle size of less than 10 nm. Batch adsorption study was carried out systematically varying parameters such as pH, contact time, initial As(V) Concentration and adsorbent doses. The Langmuir isotherm represented the equilibrium data well and the estimated monolayer adsorption capacity at ambient temperature was 76 mg/g, which is significantly higher than most of the adsorbents reported in the literature. Adsorption kinetic data were better represented by the pseudo-second order kinetic model. Intra-particle diffusion played a significant role in the rate controlling process in the initial hour. Desorption study showed that the loaded adsorbent could be regenerated when treated with dilute sodium hydroxide solution of pH 13.

Details

Title: Arsenic adsorption on goethite nanoparticles produced through hydrazine sulfate assisted synthesis method
Authors/Creators: M.K. Ghosh (Author/Creator) - Murdoch University
G.E.J. Poinern (Author/Creator) - Murdoch University
T.B. Issa (Author/Creator) - Murdoch University
P. Singh (Author/Creator) - Murdoch University
Publication Details: Korean Journal of Chemical Engineering, Vol.29(1), pp.95-102
Publisher: Springer Verlag
Identifiers: 991005541522307891
Murdoch Affiliation: School of Chemical and Mathematical Science
Language: English
Resource Type: Journal article

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Collaboration types: Domestic collaboration; International collaboration
Citation topics: 3 Agriculture, Environment & Ecology; 3.91 Contamination & Phytoremediation; 3.91.660 Arsenic Biogeochemistry
Web Of Science research areas: Chemistry, Multidisciplinary; Engineering, Chemical
ESI research areas: Chemistry