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高度多孔的铜负载磁性纳米催化剂:由经纤维素织构化的火山浮石制成,并应用于硝基苯衍生物的还原反应。

Highly porous copper-supported magnetic nanocatalysts: made of volcanic pumice textured by cellulose and applied for the reduction of nitrobenzene derivatives.

作者信息

Taheri-Ledari Reza, Saeidirad Mahdi, Qazi Fateme Sadat, Fazeli Atefeh, Maleki Ali, Shalan Ahmed Esmail

机构信息

Catalysts and Organic Synthesis Research Laboratory, Department of Chemistry, Iran University of Science and Technology Tehran 16846-13114 Iran

BC Materials, Basque Center for Materials, Applications and Nanostructures, Martina Casiano, UPV/EHU Science Park Barrio Sarriena s/n Leioa 48940 Spain

出版信息

RSC Adv. 2021 Jul 21;11(41):25284-25295. doi: 10.1039/d1ra03538j. eCollection 2021 Jul 19.

DOI:10.1039/d1ra03538j
PMID:35478908
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9036973/
Abstract

Herein, a novel designed heterogeneous catalytic system constructed of volcanic pumice magnetic particles (VPMPs), cellulose (CLS) as a natural polymeric matrix, and copper nanoparticles (Cu NPs) is presented. Also, to enhance the inherent magnetic property of VPMP, iron oxide (FeO) nanoparticles have been prepared and incorporated in the structure an process. As its first and foremost excellent property, the designed composite is in great accordance with green chemistry principles because it contains natural ingredients. Another brilliant point in the architecture of the designed composite is the noticeable porosity of VPMP as the core of the composite structure (surface area: 84.473 m g). This great porosity leads to the use of a small amount (0.05 g) of the particles for catalytic purposes. However, the main characterization methods, such as Fourier-transform infrared and energy-dispersive X-ray spectroscopy, thermogravimetric analysis, and electron microscopy, revealed that the spherical metallic particles (Fe and Cu oxides) were successfully distributed onto the surface of the VPMP and CLS matrices. Further, vibrating-sample magnetometer analysis confirmed the enhancement of the magnetic property (1.5 emu g) of the composite through the addition of FeO nanoparticles. Further, the prepared (FeO@VPMP/CLS-Cu) nanocomposite has been applied to facilitate the reduction reaction of hazardous nitrobenzene derivatives (NBDs) to their aniline analogs, with 98% conversion efficiency in eight minutes under mild conditions. Moreover, the good reusability of the catalytic system has been verified after recycling it ten times without any significant decrease in the performance.

摘要

本文介绍了一种新型设计的多相催化体系,该体系由火山浮石磁性颗粒(VPMPs)、作为天然聚合物基质的纤维素(CLS)和铜纳米颗粒(Cu NPs)构成。此外,为增强VPMP的固有磁性,已制备了氧化铁(FeO)纳米颗粒并将其纳入该结构和过程中。作为其首要的优异特性,所设计的复合材料完全符合绿色化学原则,因为它含有天然成分。所设计复合材料结构的另一个亮点是作为复合结构核心的VPMP具有显著的孔隙率(表面积:84.473 m²/g)。这种高孔隙率使得催化用途只需使用少量(0.05 g)的颗粒。然而,主要的表征方法,如傅里叶变换红外光谱和能量色散X射线光谱、热重分析和电子显微镜分析表明,球形金属颗粒(铁和铜的氧化物)成功地分布在VPMP和CLS基质的表面。此外,振动样品磁强计分析证实通过添加FeO纳米颗粒增强了复合材料的磁性(1.5 emu/g)。此外,所制备的(FeO@VPMP/CLS-Cu)纳米复合材料已应用于促进有害硝基苯衍生物(NBDs)还原为其苯胺类似物的反应,在温和条件下八分钟内转化率达98%。而且,该催化体系在循环使用十次后性能无显著下降,验证了其良好的可重复使用性。

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