Fe3O4 imbuing carboxymethyl cellulose/dextran sulfate nanocomposite hydrogel beads: an effective adsorbent for methylene blue dye pollutant

Journal of Macromolecular Science, Part A Pub Date : 2023-05-23 DOI:10.1080/10601325.2023.2212731

T. Benhalima, H. Ferfera-Harrar, N. Saha, P. Sáha

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引用次数: 2

Abstract

Abstract In this study, initially synthesized magnetic nanoparticles modified with citrate ions (MNPs/m-MNPs) were entrapped in aluminum-carboxymethyl cellulose/dextran sulfate beads to form hybrid nanocomposites (m-MNPs-C/D0.5) using a simple two-pot method. Sodium dodecyl sulfate surfactant was employed to develop a porous interconnected structure. The synergistic effect of the hybrid nanocomposites was studied for the parametric adsorption of methylene blue dye pollutant. The swelling ability of hybrid hydrogels was also studied for different solution pH. The results clearly indicated that equilibrium was reached faster at about 3 h for the m-MNPs-loaded magnetic beads (m-MNPs-C/D0.5), whereas at 6 h for the MNPs-loaded beads (MNPs0.4-C/D0.5) and the unloaded simple ones (MNPs0-C/D0.5). Experimental data modeling of adsorption kinetics and isotherms as well as thermodynamic study showed a good correlation with pseudo-second order kinetic and Langmuir models while the adsorption process on magnetic beads was exothermic. The maximum adsorption capacity for MNPs0-C/D0.5 and the optimized m-MNPs0.3-C/D0.5 hydrogel were 380 and 529 mg g−1, respectively. Furthermore, all hydrogels were perfectly regenerated and then reused for five adsorption-desorption cycles without apparent loss of stability that confirms their consideration as alternative and effective adsorbents for wastewater treatment. The manufactured beads were characterized by scanning electron microscopy/energy dispersive X-Ray, dynamic light scattering, X-ray diffraction, thermogravimetric analysis, vibrating sample magnetometer and fourier-transform infrared spectroscopy. Graphical Abstract

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Fe3O4灌注羧甲基纤维素/硫酸葡聚糖纳米复合水凝胶珠:一种有效的亚甲基蓝染料污染物吸附剂

在本研究中，采用简单的双锅法将初步合成的柠檬酸盐离子修饰磁性纳米颗粒(MNPs/m-MNPs)包埋在铝-羧甲基纤维素/葡聚糖硫酸微球中，形成混合纳米复合材料(m-MNPs- c /D0.5)。采用十二烷基硫酸钠表面活性剂制备多孔互联结构。研究了杂化纳米复合材料对亚甲基蓝染料污染物的协同吸附作用。结果表明，负载m- mnps的磁珠(m-MNPs-C/D0.5)在3 h左右达到平衡，负载mnps的磁珠(MNPs0.4-C/D0.5)和未负载MNPs0-C/D0.5的简单磁珠(MNPs0-C/D0.5)在6 h左右达到平衡。吸附动力学和等温线的实验数据建模以及热力学研究表明，磁珠吸附过程为放热过程，与拟二级动力学模型和Langmuir模型具有良好的相关性。MNPs0-C/D0.5和优化后的m-MNPs0.3-C/D0.5水凝胶的最大吸附量分别为380和529 mg g−1。此外，所有水凝胶都可以完全再生，然后在五次吸附-解吸循环中重复使用，而没有明显的稳定性损失，这证实了它们作为废水处理的替代有效吸附剂的考虑。采用扫描电镜/能量色散x射线、动态光散射、x射线衍射、热重分析、振动样品磁强计和傅里叶变换红外光谱对制备的微球进行了表征。图形抽象

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Journal of Macromolecular Science, Part A

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