Adsorption of diclofenac sodium from water using oxidized activated carbon

Adsorption of diclofenac sodium from water using oxidized activated carbon

[Display omitted] •Removal of diclofenac sodium (DCF) was done using oxidized activated carbons.•Oxidized activated carbon (OAC) showed huge uptake of DCF (∼6 times of AC).•Adsorption mechanism was explained with H-bond and electrostatic interactions.•Phenolic functional groups were the most importa...

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Bibliographic Details
Published in:Chemical engineering journal (Lausanne, Switzerland : 1996) Vol. 301; pp. 27 - 34
Main Authors: Bhadra, Biswa Nath, Seo, Pill Won, Jhung, Sung Hwa
Format: Journal Article
Language:English
Published: Elsevier B.V 01-10-2016
Subjects:
Acidic groups
Acidic oxides
Activated carbon
Adsorbents
Adsorption
Diclofenac
Diclofenac sodium
Oxidation
Oxidized activated carbon
Sodium
Surface chemistry
Diclofenac sodium
Oxidized activated carbon
Adsorption
Acidic groups
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Summary:[Display omitted] •Removal of diclofenac sodium (DCF) was done using oxidized activated carbons.•Oxidized activated carbon (OAC) showed huge uptake of DCF (∼6 times of AC).•Adsorption mechanism was explained with H-bond and electrostatic interactions.•Phenolic functional groups were the most important in the adsorption of DCF.•OACs are useful adsorbents because they are cheap, recyclable and highly efficient. Adsorption of diclofenac sodium (DCF) from aqueous solutions using surface-modified/oxidized activated carbons (OACs) was investigated and compared with that over virgin activated carbon (AC). The obtained results showed a remarkable increase (∼6 times) in DCF removal over oxidized AC compared to that over a commercial, unmodified AC, despite the decreased surface area in the OAC. The large increase in DCF removal may be due to the presence of acidic surface functional groups, which are created on the AC surface upon oxidation. To understand the role of these acidic functional groups on the increased adsorption capacity (qt), the concentration of acidic groups was determined using Boehm titration after oxidation with different quantities of oxidizing agent. The adsorption capacity of the OAC prepared by treatment with 2.0M ammonium persulfate solution (OAC (2.0)) was the highest of the prepared adsorbents. Therefore, OAC (2.0) was studied in detail by characterizing the material and investigating the adsorption performances. The effect of pH on the surface charge (zeta potential) and DCF adsorption capacity of OAC (2.0) was investigated to lead to the mechanism of DCF adsorption such as hydrogen bonding and electrostatic interactions. Additionally, the OAC can be recycled for adsorptive removal of DCF by simple solvent washing. Therefore, the OAC was found to be a promising adsorbent for the removal of DCF from contaminated water.
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ISSN:1385-8947
1873-3212
DOI:10.1016/j.cej.2016.04.143