壳聚糖@羧甲基纤维素/氧化铜-氧化钴纳米吸附剂作为去除水中污染物的超级催化剂

Chitosan@Carboxymethylcellulose/CuO-CoO Nanoadsorbent as a Super Catalyst for the Removal of Water Pollutants.

作者信息

Maslamani Nujud, Bakhsh Esraa M, Khan Sher Bahadar, Danish Ekram Y, Akhtar Kalsoom, Fagieh Taghreed M, Su Xintai, Asiri Abdullah M

机构信息

Chemistry Department, Faculty of Science, King Abdulaziz University, Jeddah 21589, Saudi Arabia.

Center of Excellence for Advanced Materials Research, King Abdulaziz University, Jeddah 21589, Saudi Arabia.

出版信息

Gels. 2022 Feb 3;8(2):91. doi: 10.3390/gels8020091.

DOI:10.3390/gels8020091

PMID:35200472

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8871360/

Abstract

In this work, an efficient nanocatalyst was developed based on nanoadsorbent beads. Herein, carboxymethyl cellulose-copper oxide-cobalt oxide nanocomposite beads (CMC/CuO-CoO) crosslinked by using AlCl were successfully prepared. The beads were then coated with chitosan (Cs), Cs@CMC/CuO-CoO The prepared beads, CMC/CuO-CoO and Cs@CMC/CuO-CoO, were utilized as adsorbents for heavy metal ions (Ni, Fe, Ag and Zn). By using CMC/CuO-CoO and Cs@CMC/CuO-CoO, the distribution coefficients (K) for Ni, Fe, Ag and Zn were (41.166 and 6173.6 mLg), (136.3 and 1500 mLg), (20,739.1 and 1941.1 mLg) and (86.9 and 2333.3 mLg), respectively. Thus, Ni was highly adsorbed by Cs@CMC/CuO-CoO beads. The metal ion adsorbed on the beads were converted into nanoparticles by treating with reducing agent (NaBH) and named Ni/Cs@CMC/CuO-CoO. Further, the prepared nanoparticles-decorated beads (Ni/Cs@CMC/CuO-CoO) were utilized as nanocatalysts for the reduction of organic and inorganic pollutants (4-nitophenol, MO, EY dyes and potassium ferricyanide K[Fe(CN)]) in the presence of NaBH. Among all catalysts, Ni/Cs@CMC/CuO-CoO had the highest catalytic activity toward MO, EY and K[Fe(CN)], removing up to 98% in 2.0 min, 90 % in 6.0 min and 91% in 6.0 min, respectively. The reduction rate constants of MO, EY, 4-NP and K[Fe(CN)] were 1.06 × 10, 4.58 × 10, 4.26 × 10 and 5.1 × 10 s, respectively. Additionally, the catalytic activity of the Ni/Cs@CMC/CuO-CoO beads was effectively optimized. The stability and recyclability of the beads were tested up to five times for the catalytic reduction of MO, EY and K[Fe(CN)]. It was confirmed that the designed nanocomposite beads are ecofriendly and efficient with high strength and stability as catalysts for the reduction of organic and inorganic pollutants.

摘要

在这项工作中，基于纳米吸附剂微球开发了一种高效的纳米催化剂。在此，成功制备了通过使用AlCl交联的羧甲基纤维素-氧化铜-氧化钴纳米复合微球（CMC/CuO-CoO）。然后用壳聚糖（Cs）包覆这些微球，即Cs@CMC/CuO-CoO。所制备的微球CMC/CuO-CoO和Cs@CMC/CuO-CoO被用作重金属离子（Ni、Fe、Ag和Zn）的吸附剂。使用CMC/CuO-CoO和Cs@CMC/CuO-CoO时，Ni、Fe、Ag和Zn的分配系数（K）分别为（41.166和6173.6 mL/g）、（136.3和1500 mL/g）、（20739.1和1941.1 mL/g）以及（86.9和2333.3 mL/g）。因此，Cs@CMC/CuO-CoO微球对Ni有高度吸附。通过用还原剂（NaBH）处理，吸附在微球上的金属离子被转化为纳米颗粒，并命名为Ni/Cs@CMC/CuO-CoO。此外，所制备的纳米颗粒修饰微球（Ni/Cs@CMC/CuO-CoO）在NaBH存在下被用作纳米催化剂，用于还原有机和无机污染物（4-硝基苯酚、MO、EY染料和铁氰化钾K[Fe(CN)]）。在所有催化剂中，Ni/Cs@CMC/CuO-CoO对MO、EY和K[Fe(CN)]具有最高的催化活性，分别在2.0分钟内去除率高达98%、在6.0分钟内去除率为90%以及在6.0分钟内去除率为91%。MO、EY、4-NP和K[Fe(CN)]的还原速率常数分别为1.06×10、4.58×10、4.26×10和5.1×10 s。此外，Ni/Cs@CMC/CuO-CoO微球的催化活性得到了有效优化。对微球用于催化还原MO、EY和K[Fe(CN)]的稳定性和可回收性进行了高达五次的测试。证实了所设计的纳米复合微球作为还原有机和无机污染物的催化剂具有环境友好、高效且具有高强度和稳定性的特点。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/f213/8871360/79a6d3b97eea/gels-08-00091-g001.jpg

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壳聚糖@羧甲基纤维素/氧化铜-氧化钴纳米吸附剂作为去除水中污染物的超级催化剂

Chitosan@Carboxymethylcellulose/CuO-CoO Nanoadsorbent as a Super Catalyst for the Removal of Water Pollutants.

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