Assembly, characterization, and adsorptive-removal efficiency of Cu-doped-ZIF-8 adsorbents

Q1 Environmental Science Case Studies in Chemical and Environmental Engineering Pub Date : 2024-07-17 DOI:10.1016/j.cscee.2024.100858

Widyan N. Khudhair

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Abstract

In the current work, new nanocomposite adsorbers of Cu-doped zeolitic imidazole framework (Cu-doped-ZIF-8) were constructed via in-suit assembled in the presence of both Zn and Cu ions, and analyzed using different techniques. The adsorptive efficiency of Cu-doped-ZIF-8 adsorber has been assessed toward Malachite Green (MG) dye removal. Compared with undoped-ZIF-8, adsorption uptake of Cu-doped ZIF-8 was enhanced 1.8 times, reaching 219 mg/g under constant conditions (solution pH = 6.8, initial MG concentration 30 mg/L, adsorber dose 0.5 g/L, and adsorption time 90 min). The boosted adsorption efficiency was owing to the effective π-complications originated between Cu nods and the MG dye molecules. According to the kinetic and adsorption-isotherm analyses, the Pseudo-first-order and Langmuir equations were matched well with the experimental adsorption process, suggesting that the chemisorption was controlled, and the Cu-doped-ZIF-8 sample displayed a uniform surface towards MG dye adsorption process. Furthermore, the stability of Cu-doped-ZIF-8 was tested, in which the MG adsorption capacity decreased only to 213 mg/g for after five adsorption cycles.

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掺铜 ZIF-8 吸附剂的组装、表征和吸附去除效率

在当前的研究中，研究人员在锌和铜离子存在的条件下，通过装填法构建了掺铜沸石咪唑框架（掺铜-ZIF-8）的新型纳米复合吸附剂，并使用不同的技术对其进行了分析。评估了掺铜-ZIF-8 吸附剂对孔雀石绿（MG）染料的吸附效率。与未掺杂的 ZIF-8 相比，在恒定条件下（溶液 pH = 6.8，初始孔雀石绿浓度为 30 mg/L，吸附剂剂量为 0.5 g/L，吸附时间为 90 分钟），掺铜 ZIF-8 的吸附吸收率提高了 1.8 倍，达到 219 mg/g。吸附效率的提高是由于 Cu 结点与 MG 染料分子之间产生了有效的 π 补偿。根据动力学和吸附等温线分析，伪一阶方程和 Langmuir 方程与实验吸附过程匹配良好，表明化学吸附是可控的，掺铜 ZIF-8 样品在 MG 染料吸附过程中表现出均匀的表面。此外，还测试了掺铜-ZIF-8 的稳定性，在五个吸附周期后，MG 吸附容量仅下降到 213 mg/g。

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