Innovative adsorbent based on graphene oxide decorated with Fe2O3/ZnO nanoparticles for removal of dipyrone from aqueous medium

Innovative adsorbent based on graphene oxide decorated with Fe2O3/ZnO nanoparticles for removal of dipyrone from aqueous medium

–The new adsorbent material based on graphene oxide was successfully synthesised.–The proposed adsorbent demonstrated potential for removal of dipyrone.–The maximum adsorption capacity observed was 116.442?mg?g?1 at 318?K after 360?min. This study proposed the synthesis of a new adsorbent material (...

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Bibliographic Details
Published in:Materials letters Vol. 238; pp. 233 - 236
Main Authors: de Andrade, Murilo Barbosa, Guerra, Ana Carolina Sestito, dos Santos, T–ssia Rhuna Tonial, Mateus, Gustavo Affonso Pisano, Bergamasco, Ros–ngela
Format: Journal Article
Language:English
Published: Elsevier B.V 01-03-2019
Subjects:
Adsorption
Dipyrone
Graphene oxide
Nanoparticles
Nanoparticles
Dipyrone
Graphene oxide
Adsorption
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Summary:–The new adsorbent material based on graphene oxide was successfully synthesised.–The proposed adsorbent demonstrated potential for removal of dipyrone.–The maximum adsorption capacity observed was 116.442?mg?g?1 at 318?K after 360?min. This study proposed the synthesis of a new adsorbent material (GO#Fe2O3/ZnO), through the association of graphene oxide with nanoparticles of oxides of iron and zinc to increase dipyrone adsorption efficiency. The synthesised materials were characterised by TEM and SEM enabling identification of all the materials used in the synthesis in the composition of the new adsorbent. The pseudo-second-order model was the one that best represented the kinetics of dipyrone adsorption on GO#Fe2O3/ZnO, while the Langmuir model presented better adjustment for adsorption isotherms, with a maximum capacity of 116.442?mg?g?1 at 318?K after 360?min of adsorption. The results indicated that the adsorption of dipyrone on GO#Fe2O3/ZnO was spontaneous above 298?K and endothermic according the thermodynamic parameters. The proposed adsorbent showed high efficiency, reaching 76% removal. Also, a interaction mechanism was proposed.
ISSN:0167-577X
1873-4979
DOI:10.1016/j.matlet.2018.11.168