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Adsorption characteristics of S-Metolachlor onto the sawdust biochar derived from Acacia auriculiformis .

Quach An BinhTran Van KhanhXuan Thanh BuiKhanh Nguyen DiDuy Toan Pham
Published in: Journal of environmental science and health. Part. B, Pesticides, food contaminants, and agricultural wastes (2024)
The adsorption mechanism of S-Metolachlor in an aqueous solution by sawdust biochar derived from Acacia auriculiformis (SAB) was studied. SAB was manufactured at 500 °C for 4 h under oxygen-limited conditions and characterized for SEM, EDS, pHpzc, BET, and FTIR. The adsorption kinetics, isotherm, and diffusion studies of S-Metolachlor and SAB were further explored. Moreover, the effects of the solution pH were examined on the adsorption of S-Metolachlor by SAB. The BET analysis of SAB was achieved at 106.74 m 2 .g - 1 and the solution pH did not significantly influence the S-Metolachlor adsorption. The adsorption data were fitted into a Langmuir isotherm and the PSO model. The film diffusion coefficient D f (4.93 × 10 - 11 to 8.17 × 10 - 11 m 2 .s - 1 ) and the particle diffusion coefficient D p (1.68 × 10 - 11 to 2.65 × 10 - 11 m 2 .s - 1 ) were determined and the rate-limiting step of S-Metolachlor adsorption and SAB was governed by liquid film diffusion. The S-Metolachlor adsorption process onto SAB was controlled by multiple mechanisms, including pore filling, H-bonding, hydrophobic interaction, and π-π EDA interactions. H-bonding is the main interaction for the adsorption of S-Metolachlor and SAB. Conclusively, the study illustrates that biochar produced from Acacia auriculiformis sawdust possessed effective adsorption properties for S-Metolachlor herbicide.
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