基于聚阳离子改性纳米α-氧化铝颗粒的高性能吸附剂对偶氮染料新红的吸附去除

Adsorptive Removal of Azo Dye New Coccine Using High-Performance Adsorbent-Based Polycation-Modified Nano-Alpha Alumina Particles.

作者信息

Doan Thi Hai Yen, Pham Hong Anh, Nguyen Ngoc Huyen, Le Thi Dung, Nguyen Thanh Binh, Le Thanh Son

机构信息

Faculty of Chemistry, University of Science, Vietnam National University, Hanoi-19 Le Thanh Tong, Hoan Kiem, Hanoi, Vietnam.

Nguyen Sieu High School, Yen Hoa, Cau Giay, Hanoi, Vietnam.

出版信息

J Anal Methods Chem. 2022 Feb 7;2022:9425334. doi: 10.1155/2022/9425334. eCollection 2022.

DOI:10.1155/2022/9425334

PMID:35178271

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8844390/

Abstract

The azo dyes new coccine (NCC) were successfully removed through the adsorption onto PVBTAC-modified -AlO particles. The optimal conditions of both the surface modification by PVBTAC adsorption and the NCC adsorption were thoroughly investigated. Formerly, polycations PVBTAC were adsorbed onto the nanosized -AlO particles at 8, NaCl 100 mM, with a contact time of 2 h, and initial concentration of 1000 ppm to modify the -AlO surface. Latterly, the NCC adsorptive removal was conducted at 8, NaCl 10 mM, -AlO adsorbent dosage of 3 mg mL, and a contact time of 45 min. Interestingly, the optimal of 8 potentially applies to treat real wastewater as the environmental range is often about 7-8. High removal efficiency and adsorption capacity of the NCC azo dyes were, respectively, found to be approximately 95% and 3.17 mg g with an initial NCC concentration of 10 ppm. The NCC adsorption on the modified -AlO particles was well fitted with a Freundlich model isotherm. A pseudo-second kinetic was more suitable for the NCC adsorption on the PVBTAC-modified -AlO surface than a pseudo-first kinetic. The NCC adsorptive removal kinetic was also affirmed by the FT-IR spectra, based especially on the changes of functional group stretch vibrations of -SO group in the NCC molecules and -N(CH) group in the PVBTAC molecules. The high reusability of the -AlO particles was proved to be higher than 50% after four generation times.

摘要

通过吸附到PVBTAC改性的γ-Al₂O₃颗粒上，偶氮染料新红（NCC）被成功去除。对PVBTAC吸附进行表面改性以及NCC吸附的最佳条件进行了深入研究。以前，在8℃、NaCl浓度为100 mM的条件下，将聚阳离子PVBTAC吸附到纳米级γ-Al₂O₃颗粒上，接触时间为2小时，初始浓度为1000 ppm，以改性γ-Al₂O₃表面。后来，在8℃、NaCl浓度为10 mM、γ-Al₂O₃吸附剂用量为3 mg/mL、接触时间为45分钟的条件下进行NCC的吸附去除。有趣的是，8℃这个最佳温度可能适用于处理实际废水，因为环境温度范围通常约为7-8℃。当初始NCC浓度为10 ppm时，发现NCC偶氮染料的去除效率和吸附容量分别约为95%和3.17 mg/g。NCC在改性γ-Al₂O₃颗粒上的吸附符合Freundlich模型等温线。与拟一级动力学相比，拟二级动力学更适合NCC在PVBTAC改性γ-Al₂O₃表面的吸附。FT-IR光谱也证实了NCC的吸附去除动力学，特别是基于NCC分子中-SO₂基团和PVBTAC分子中-N(CH₃)₃基团的官能团伸缩振动变化。γ-Al₂O₃颗粒在经过四次循环使用后，其高重复使用性被证明高于50%。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ff1c/8844390/9881dbdbe000/JAMC2022-9425334.001.jpg

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基于聚阳离子改性纳米α-氧化铝颗粒的高性能吸附剂对偶氮染料新红的吸附去除

Adsorptive Removal of Azo Dye New Coccine Using High-Performance Adsorbent-Based Polycation-Modified Nano-Alpha Alumina Particles.

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