A sustainable Ru catalyzed aerobic oxidation based on high loading magnetic ionic nanoparticles network

A sustainable Ru catalyzed aerobic oxidation based on high loading magnetic ionic nanoparticles network

Abstract In this study, we describe the production of a novel high loading magnetic ionic nanoparticle network (HMINN) encompassing a functionalized imidazolium structure bridging between the core-shell magnetic nanoparticles. The network was constructed through the in situ radical polymerization of...

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Bibliographic Details
Main Authors: Sepideh Asgari, Mina Ghahremani, Sepideh Najafvand-Derikvandi, Hesamodin Moradi, Mina Tavakolian, Fariborz Mansouri, Babak Karimi
Format: Article
Language:English
Published: Nature Portfolio 2025-08-01
Series:Scientific Reports
Subjects:
Functional ionic liquid
High-loading nanostructure
Ionic network nanoparticles
Heterogeneous catalyst
Aerobic oxidation
Online Access:https://doi.org/10.1038/s41598-025-07505-5
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Summary:Abstract In this study, we describe the production of a novel high loading magnetic ionic nanoparticle network (HMINN) encompassing a functionalized imidazolium structure bridging between the core-shell magnetic nanoparticles. The network was constructed through the in situ radical polymerization of tris-vinyl imidazolium moieties on the surface of mercaptopropyl functionalized silica-coated magnetite. The structural and chemical features of the resulting material were comprehensively characterized utilizing various analytical methods such as N2 adsorption-desorption, FTIR, TGA, HRTEM, ICP, XPS, VSM and elemental analysis. This material was then served to produce a Ru-supported catalyst for the oxidation of alcohols and amines under aerobic conditions. The aerobic oxidation of a diverse variety of benzylic, aliphatic, allylic, cyclic, and heterocyclic substrates was efficiently accomplished in the presence of Ru@HMINN under additive-free conditions and excellent E-factor and EcoScale factor, affording good to excellent yields of the related aldehydes and nitriles. Some of the advantages are the highly available active sites, high ionic density and porous high loading network, the outstanding dispersion of the catalyst in organic media, and the superior ability of imidazolium units to stabilize the Ru nanoparticles while allowing convenient separation of the whole system by applying an external magnet.
ISSN:2045-2322

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