Ultra-cheap and ultra-stable adsorption materials based on nylon and removal performance of copper ion

吸附 尼龙6 化学吸附 傅里叶变换红外光谱 复合数 化学 材料科学 核化学 化学工程 聚合物 复合材料 有机化学 工程类
作者
Chao Hou,Ying Zhang,Qianqian Liao,Q. Chen
出处
期刊:Separation and Purification Technology [Elsevier]
卷期号:336: 126346-126346
标识
DOI:10.1016/j.seppur.2024.126346
摘要

A novel adsorbent material, nylon@Fe3O4, was prepared by co-precipitation of nylon and FeSO4/FeCl3/NaOH solution. The structure of the composite was characterized using FTIR and TG methods. The results of FTIR and TG indicated that nylon@Fe3O4 was successfully synthesized. The adsorption effect of nylon@Fe3O4 on Cu(II) was explored under different experimental conditions. The optimum adsorption conditions of nylon@Fe3O4 on Cu(II) were reached when the amount of composite was 12.50 mg, the concentration of Cu(II) was 15.36 mg/L, the reaction temperature was 50 °C, and the pH value was 9. Under the above conditions, the optimum adsorption efficiency was 94.67 % and the optimum adsorption capacity was 11.57 mg/g. The kinetic modeling indicated that the adsorption of nylon@Fe3O4 belonged to chemisorption, and the initial adsorption rate (h = 69.92 mg/g/min) was larger, which indicated that the nylon@Fe3O4 adsorption rate was faster. The adsorption isotherm experiments showed that the nylon@Fe3O4 adsorption process occurred in the monomolecular layer adsorption, and the separation coefficients 0 < RL = 0.322/0.300/0.287 < 1, which indicated that the adsorption process of nylon@Fe3O4 for Cu(II) was favorable adsorption. The adsorption thermodynamics showed that ΔG0 < 0, ΔS0 = 118 J/mol/K > 0, and ΔH0 = 31.14 kJ/mol > 0, indicating that the adsorption process of nylon@Fe3O4 on Cu(II) was spontaneous and favorable adsorption. Through 8 cycle experiments, the adsorption efficiency decreased from 94.67 % to 61.55 %, so nylon@Fe3O4 had good regenerative performance. In conclusion, nylon@Fe3O4 has potential applications in the adsorption of heavy metal ions.
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