Fabrication of sulfur-doped biochar derived from tapioca peel waste with superior adsorption performance for the removal of Malachite green and Rhodamine B dyes

•Waste tapioca peels served as a novel adsorbent by simple pyrolysis treatment.•The adsorbent had high removal capacity of 30.18 and 33.10 mg/g for MG and RhB.•The removal efficiency of dyes had no obvious change after five regeneration cycles.•It might be mass produced and applied to other biomass...

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Bibliographic Details
Published in:Surfaces and interfaces 2021-04, Vol.23, p.100920, Article 100920
Main Authors: Vigneshwaran, Sivakumar, Sirajudheen, Palliyalil, Karthikeyan, Perumal, Meenakshi, Sankaran
Format: Article
Language:English
Subjects:
Biochar
Dye adsorption
Isotherm
Kinetics
Mechanism
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Summary:•Waste tapioca peels served as a novel adsorbent by simple pyrolysis treatment.•The adsorbent had high removal capacity of 30.18 and 33.10 mg/g for MG and RhB.•The removal efficiency of dyes had no obvious change after five regeneration cycles.•It might be mass produced and applied to other biomass materials.•Best fitted of kinetic reaction rate and pseudo-second-order model on adsorption of dyes. The rapid industrialization and explosion of the population result in increased usage of water and its consequent discarding causes environmental pollution. The biochar based materials are effectively employed for the removal of dyes from contaminated water. However, the pristine biochar shows less efficiency towards dye adsorption in practical applications. Herein, sulfur tethered adsorbent of Tapioca peel (S@TP) biochar was successfully fabricated and utilized for the removal of organic dyes such as Malachite Green (MG) and Rhodamine B (RhB) from water. The peel of tapioca was used as a precursor for the biochar preparation. The isotherm analysis demonstrates that the S@TP biochar has the adsorption efficiency of 30.18 and 33.10 mg/g for MG and RhB dye molecules, respectively. 25 mg/L concentration of 50 mL dye solutions were used for the adsorption study. The maximum adsorption was observed at a pH range ~8, and the adsorption attained saturation within 120 min. The adsorption followed the pseudo-second-order kinetics, and the adsorption process was composed of the Freundlich isotherm model. The newly fabricated adsorbent could be utilized as a capable adsorbent for the water/wastewater treatment process. The newly fabricated bio-mass could be visualized as a capable adsorbent for water/wastewater treatment process since the S@TP matrix possesses high removal and reusable efficiency towards dye molecules. [Display omitted]
ISSN:2468-0230
2468-0230
DOI:10.1016/j.surfin.2020.100920