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一种固定化席夫碱-锰配合物作为杂化磁性纳米催化剂用于生物活性[4,3-]吡啶并[1,2-]嘧啶-6-酮的绿色合成。

An immobilized Schiff base-Mn complex as a hybrid magnetic nanocatalyst for green synthesis of biologically active [4,3-]pyrido[1,2-]pyrimidin-6-ones.

作者信息

Bodaghifard Mohammad Ali, Pourmousavi Seied Ali, Ahadi Najmieh, Zeynali Payam

机构信息

Department of Chemistry, Faculty of Science, Arak University Arak 384817758 Iran

Institute of Nanosciences &Nanotechnology, Arak University Arak Iran.

出版信息

Nanoscale Adv. 2024 Apr 4;6(10):2713-2721. doi: 10.1039/d4na00131a. eCollection 2024 May 14.

DOI:10.1039/d4na00131a
PMID:38752148
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11093261/
Abstract

The immobilization of metal ions on inorganic supports has garnered significant attention due to its wide range of applications. These immobilized metal ions serve as catalysts for chemical reactions and as probes for studying biological processes. In this study, we successfully prepared FeO@SiO@Mn-complex by immobilizing manganese onto the surface of magnetic FeO@SiO nanoparticles through a layer-by-layer assembly technique. The structure of these hybrid nanoparticles was characterized by various analytical techniques, including Fourier transform infrared spectroscopy (FT-IR), powder X-ray diffraction (PXRD), thermogravimetric analysis (TGA), vibrating sample magnetometry (VSM), scanning electron microscopy (SEM), and inductively coupled plasma-optical emission spectrometry (ICP-OES). FeO@SiO@Mn-complex was successfully utilized in the synthesis of biologically active 7-aryl[4,3-]pyrido[1,2-]pyrimidin-6(7)-one derivatives in an aqueous medium, providing environmentally friendly conditions. The desired products were manufactured in high yields (81-95%) without the formation of side products. The heterogeneity of the solid nanocatalyst was assessed using a hot filtration test that confirmed minimal manganese leaching during the reaction. This procedure offers numerous advantages, including short reaction times, the use of a green solvent, the ability to reuse the catalyst without a significant decrease in catalytic activity, and easy separation of the catalyst using an external magnet. Furthermore, this approach aligns with environmental compatibility and sustainability standards.

摘要

金属离子在无机载体上的固定化因其广泛的应用而备受关注。这些固定化金属离子可作为化学反应的催化剂以及研究生物过程的探针。在本研究中,我们通过层层组装技术将锰固定在磁性FeO@SiO纳米颗粒表面,成功制备了FeO@SiO@Mn复合物。通过多种分析技术对这些杂化纳米颗粒的结构进行了表征,包括傅里叶变换红外光谱(FT-IR)、粉末X射线衍射(PXRD)、热重分析(TGA)、振动样品磁强计(VSM)、扫描电子显微镜(SEM)以及电感耦合等离子体发射光谱(ICP-OES)。FeO@SiO@Mn复合物成功用于在水介质中合成具有生物活性的7-芳基[4,3-]吡啶并[1,2-]嘧啶-6(7)-酮衍生物,提供了环境友好的条件。所需产物以高收率(81-95%)制备,且无副产物生成。使用热过滤试验评估了固体纳米催化剂的非均相性,结果证实反应过程中锰的浸出极少。该方法具有诸多优点,包括反应时间短、使用绿色溶剂、催化剂可重复使用且催化活性无显著降低,以及使用外部磁铁即可轻松分离催化剂。此外,这种方法符合环境兼容性和可持续性标准。

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