Fe3O4@RGO@Au@C Composite with Magnetic Core and Au Enwrapped in Double-Shelled Carbon: An Excellent Catalyst in the Reduction of Nitroarenes and Suzuki–Miyaura Cross-Coupling

Dabiri, Minoo; Lehi, Noushin Farajinia; Movahed, Siyavash Kazemi

doi:10.1007/s10562-016-1792-8

Cited by 21 publications

(6 citation statements)

References 46 publications

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“…[292] Dabiri et al prepared Fe 3 O 4 @RGO@Au@C composites which demonstrated excellent catalytic performance for the reduction of nitrophenols and the Suzuki-Miyaura cross-coupling reaction. [293] Barberry fruit extract was employed as a reducing and stabilizing agent for the environmentally friendly in situ synthesis of Cu NPs supported on a RGO-Fe 3 O 4 nanocomposite. The final Cu/RGO-Fe 3 O 4 material displayed high catalytic activity for the O-arylation of phenols using aryl halides.…”

Section: Magnetically Separable Catalysismentioning

confidence: 99%

Magnetic Nanoparticle Composites: Synergistic Effects and Applications

2021

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Composite materials are made from two or more constituent materials with distinct physical or chemical properties that, when combined, produce a material with characteristics which are at least to some degree different from its individual components. Nanocomposite materials are composed of different materials of which at least one has nanoscale dimensions. Common types of nanocomposites consist of a combination of two different elements, with a nanoparticle that is linked to, or surrounded by, another organic or inorganic material, for example in a core‐shell or heterostructure configuration. A general family of nanoparticle composites concerns the coating of a nanoscale material by a polymer, SiO2 or carbon. Other materials, such as graphene or graphene oxide (GO), are used as supports forming composites when nanoscale materials are deposited onto them. In this Review we focus on magnetic nanocomposites, describing their synthetic methods, physical properties and applications. Several types of nanocomposites are presented, according to their composition, morphology or surface functionalization. Their applications are largely due to the synergistic effects that appear thanks to the co‐existence of two different materials and to their interface, resulting in properties often better than those of their single‐phase components. Applications discussed concern magnetically separable catalysts, water treatment, diagnostics‐sensing and biomedicine.

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Section: Magnetically Separable Catalysismentioning

confidence: 99%

Magnetic Nanoparticle Composites: Synergistic Effects and Applications

2021

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“…In 2016, Dabiri and co‐workers reported a novel magnetic core double‐shelled carbon with Fe 3 O 4 NPs as the core, reduced graphene oxide (RGO) as the inner shell and carbon (C) layer as the outer shell (Fe 3 O 4 @RGO@Au@C) (Figure ) . The Fe 3 O 4 @RGO@Au@C nanocatalyst was successfully applied in the reduction of nitroarenes and Suzuki‐Miyaura cross coupling reactions of aryl halides with phenylboronic acid (Scheme ).…”

Section: C−c and C−x Coupling Reactions Catalyzed By Graphene Supportmentioning

confidence: 99%

Recent Progress in Application of Graphene Supported Metal Nanoparticles in C−C and C−X Coupling Reactions

Nasrollahzadeh

Issaabadi

Tohidi

et al. 2017

The Chemical Record

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The carbon-carbon and carbon-heteroatom bonds catalytic formation is among the most significant reactions in organic synthesis which extensively applied for synthesis of natural products, heterocycles, dendrimers, biologically active molecules and useful compounds. This review provides the latest advances in the preparation of graphene supported metal nanoparticles and their application in the catalytic formation of both carbon-carbon (C-C) and carbon-heteroatom (C-X) bonds including the Suzuki, Heck, Hiyama, Ullmann, Buchwald and Sonogashira coupling reactions. Numerous examples are given concerning the use of these catalysts in C-C and C-X coupling reactions along with the reliable and simple preparation methods of these catalysts, their characterization and catalytic properties and also the recycling possibilities.

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“…Recently, studies on 2D mesoporous materials/graphene nanocomposites, prepared using graphene as a template, have been reported. Here, the presence of graphene is expected to provide a highly eﬀective conduction path, which would facilitate the application of mesoporous materials/graphene nanocomposites as electrodes in batteries, fuel cells, sensors, super capacitors, and catalysis …”

Section: Introductionmentioning

confidence: 99%

Palladium Supported on Mesoporous Silica/Graphene Nanohybrid as a Highly Eﬃcient and Reusable Heterogeneous Catalyst for C−H Functionalization

2018

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Mesoporous silica/graphene (KIT‐6/G) with pendent 3‐mercaptopropyl groups has been prepared by condensation of surface silanols and (3‐mercaptopropyl)trimethoxysilane (MPTMS). Treatment of the mercaptopropylated with Pd(CH3CN)2Cl2 gave a heterogeneous Pd‐catalyst (Pd@KIT‐6/G‐SH). The catalytic activity of the catalyst was investigated in two types of C−H functionalized for the synthesis of 2‐cyanoacetanilide and 2‐arylpyridine 1‐oxide derivatives via C−H activation. Additionally, for the study of the effect of thiol ligand, the Pd@KIT‐6/G was prepared from the treatment of Pd(CH3CN)2Cl2 with KIT‐6/G. The catalyst has been successfully recovered and reused without loss of activity over seven cycles of reactions.

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Fe3O4@RGO@Au@C Composite with Magnetic Core and Au Enwrapped in Double-Shelled Carbon: An Excellent Catalyst in the Reduction of Nitroarenes and Suzuki–Miyaura Cross-Coupling

Cited by 21 publications

References 46 publications

Magnetic Nanoparticle Composites: Synergistic Effects and Applications

Magnetic Nanoparticle Composites: Synergistic Effects and Applications

Recent Progress in Application of Graphene Supported Metal Nanoparticles in C−C and C−X Coupling Reactions

Palladium Supported on Mesoporous Silica/Graphene Nanohybrid as a Highly Eﬃcient and Reusable Heterogeneous Catalyst for C−H Functionalization

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