Conversion of cotton textile wastes into porous carbons by chemical activation with ZnCl2, H3PO4, and FeCl3

Xia, Meiling; Shao, Xiaohou; Sun, Zhenhua; Xu, Zhihua

Conversion of cotton textile wastes into porous carbons by chemical activation with ZnCl2, H3PO4, and FeCl3

2020

Xia, Meiling | Shao, Xiaohou | Sun, Zhenhua | Xu, Zhihua

In this study, ZnCl₂, H₃PO₄, and FeCl₃ were used as activating agents to prepare porous carbons (PC-ZnCl₂, PC-H₃PO₄, and PC-FeCl₃) from cotton textile wastes at a relativity low temperature. The morphology and structure of carbons were characterized by SEM and XRD demonstrating that carbons with porous property were successfully obtained. Textural properties showed that the PC-ZnCl₂ possessed the largest specific surface area of 1854.70 m² g⁻¹ with mesopores domination. Both of micropores and mesopores existed in PC-H₃PO₄. Micropores were well developed in PC-FeCl₃, and the proportion of which was the highest. The FTIR and pHₚzc analysis indicated that all the carbons had acidic characteristics, and more acid functional groups were appeared on the PC-FeCl₃ than others. The different pyrolysis activation paths were proposed by the thermogravimetric analysis, which proved that the addition of activating agents promoted the formation of pores, lowered the pyrolysis temperature of cotton textile wastes, and inhibited the production of volatiles. The results of adsorption kinetics and isotherm revealed that PC-ZnCl₂ exhibited the best adsorption capacity of Cr(VI), and chemical adsorption played a significant role. Meanwhile, surface functional groups of porous carbons also participated in the Cr(VI) adsorption via electrostatic interaction and reduction reaction. Graphical abstract

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