吸附
化学
组分(热力学)
壳体(结构)
无机化学
核化学
化学工程
材料科学
有机化学
热力学
物理
工程类
复合材料
作者
Yuping Li,Ping Xiang,Haotian Chen,Yuan Zhou
标识
DOI:10.1016/j.jssc.2022.123538
摘要
The discharge of dye wastewater threatens the ecology and biological health. Adsorption technology is the preferred treatment method and absorbent is core. In this study, a high-performance [email protected] adsorbent was synthesized by epitaxial growth. XRD and TEM demonstrated the successful synthesis of the core-shell [email protected] and BET showed that the specific surface area, pore volume and diameter of [email protected] were 1518.75 m2/g, 0.65 cm3/g and 1.71 nm, respectively, with microporous being the predominant. The optimum adsorption conditions for the adsorption of Direct Blue-86 by [email protected] were an initial concentration of 150 mg/g, a [email protected] dosage of 5 mg, and a pH of 8, and the adsorption capacity at this condition was 301.69 mg/g. The mechanism of adsorption on Direct Blue-86 has been speculated to be electrostatic interaction, hydrogen bonding, Lewis acid-base interaction, π-π stacking and coordination. The kinetics of adsorption of Reactive Yellow and Congo Red in the two-component system were both consistent with the pseudo-second-order kinetic models, with chemisorption being the rate-controlling step and the adsorption rates of Reactive Yellow and Congo Red were both higher than that of one-component system. Meanwhile, they were more consistent with the Langmuir monolayer adsorption models, with maximum adsorption capacities of 261.10 mg/g and 291.55 mg/g, respectively, a decrease of 56.66% and 54.52% compared to that in the one-component system.
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