2021
DOI: 10.1039/d1ra01790j
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Design, synthesis, and catalytic performance of modified graphene oxide based on a cobalt complex as a heterogenous catalyst for the preparation of aminonaphthoquinone derivatives

Abstract: GO@f-SiO2@Co is a heterogenous catalyst composed of spherical silica particles grafted on the surface of graphene oxide with ethylenediamine ligands and coordination with Co(ii). We assessed the activity of the catalyst for the synthesis of aminonaphthoquinones.

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Cited by 4 publications
(4 citation statements)
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“…Mirheidari et al 121 covalently attached an amino-functionalized SiO 2 sphere/cobalt combination to a GO surface. In the production of amino naphthoquinones in ethanol solvent, the catalyst demonstrated significant catalytic activity for one-pot synthesis to enhance the yield (96–98%) in a smaller span of time (5–8 min).…”
Section: Application Of Graphene Oxide As the Catalysis For Different...mentioning
confidence: 99%
“…Mirheidari et al 121 covalently attached an amino-functionalized SiO 2 sphere/cobalt combination to a GO surface. In the production of amino naphthoquinones in ethanol solvent, the catalyst demonstrated significant catalytic activity for one-pot synthesis to enhance the yield (96–98%) in a smaller span of time (5–8 min).…”
Section: Application Of Graphene Oxide As the Catalysis For Different...mentioning
confidence: 99%
“…The decomposition of the nanocomposite after 300 °C continues to 800 °C, indicating the thermal stability of the catalyst. 56…”
Section: Resultsmentioning
confidence: 99%
“…after 300 °C continues to 800 °C, indicating the thermal stability of the catalyst. 56 After structural and compositional verification of the magnetic graphene oxide supported copper catalyst, we investigated its applicability in the cyclization reaction of 2-aminophenols with β-diketones for the synthesis of bioactive benzoxazoles. In order to obtain the optimized reaction conditions, 2-aminophenol and acetylacetone were chosen as test substrates.…”
Section: Dalton Transactions Papermentioning
confidence: 99%
“…22,23 GO composites with metals and metal oxides (MOs) have been demonstrated to outperform graphene in various catalytic, chemical sensing, and energy storing/harvesting properties. [24][25][26][27] GO composites with metal suldes, phosphides and hydroxides have also been studied for super capacitor electrode applications. [28][29][30] These examples point to interesting electronic features of GO/M interfaces and illustrate that their electrical properties would strongly depend on the nature of M. 31 These features establish GO and its composites as promising functional materials, but, unlike graphene, the structure and electrical properties of GO/M and GO/MO interfaces have remained relatively unexplored.…”
Section: Introductionmentioning
confidence: 99%