Publication:
Fluoride and Arsenite Removal by Adsorption on La2O3-CeO2/Laterite

datacite.subject.fos oecd::Natural sciences
dc.contributor.author Duong Thi Lim
dc.contributor.author Trinh Ngoc Tuyen
dc.contributor.author Dao Ngoc Nhiem
dc.contributor.author Dao Hong Duc
dc.contributor.author Pham Ngoc Chuc
dc.contributor.author Nguyen Quang Bac
dc.contributor.author Dang Xuan Tung
dc.contributor.author Ngo Nghia Pham
dc.contributor.author Luu Thi Viet Ha
dc.contributor.author Nguyen Thi Thanh Tu
dc.contributor.author Vo Thang Nguyen
dc.contributor.author Dinh Quang Khieu
dc.contributor.editor Dong kee Yi
dc.date.accessioned 2022-11-02T02:20:32Z
dc.date.available 2022-11-02T02:20:32Z
dc.date.issued 2021
dc.description.abstract In the present article, the adsorbent prepared from laterite with lanthanum and cerium oxides (La2O3-CeO2/laterite (LCL)) was efficiently employed for the removal of arsenite and fluoride from an aqueous environment. The obtained materials were characterized by XRD, SEM, and nitrogen adsorption/desorption. The synthesized LCL exhibited a high adsorption capacity towards arsenite (As(III)) and fluoride. The adsorption of both analytes on LCL, which was well-fitted to a pseudo-second-order equation, was found to be kinetically fast in the first 20 minutes and reached equilibrium at around 180 minutes. Weber’s intraparticle diffusion model in multilinearity using the piecewise linear regression combined with Akaike’s criteria was addressed. The adsorption capacities of LCL calculated from Langmuir’s isotherm model were found to be 67.08 mg·g-1 for arsenite and 58.02 mg·g-1 for fluoride. Thermodynamic parameters presented an endothermic nature of arsenite adsorption but an exothermic nature for fluoride and a negative Gibbs free energy for the spontaneous process of arsenite or fluoride adsorption at the studied temperature range. The excellent adsorption performance and stability make the composite of laterite and La-Ce binary oxides an alternative efficient and cheap adsorbent for the removal of arsenite and fluoride in an aqueous solution.
dc.identifier.doi 10.1155/2021/9991050
dc.identifier.uri http://repository.vlu.edu.vn:443/handle/123456789/618
dc.language.iso en_US
dc.relation.ispartof Journal of Nanomaterials
dc.relation.issn 1687-4129
dc.relation.issn 1687-4110
dc.title Fluoride and Arsenite Removal by Adsorption on La2O3-CeO2/Laterite
dc.type journal-article
dspace.entity.type Publication
oaire.citation.volume 2021
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