Mehrasa Tarahomi scite author profile

An SO3H‐functionalized nano‐MGO‐D‐NH2 catalyst has been prepared by multi‐functionalization of a magnetic graphene oxide (GO) nanohybrid and evaluated in the synthesis of tetrahydrobenzo[b]pyran and pyrano[2,3‐d]pyrimidinone derivatives. The GO/Fe3O4 (MGO) hybrid was prepared via an improved Hummers method followed by the covalent attachment of 1,4‐butanesultone with the amino group of the as‐prepared polyamidoamine‐functionalized MGO (MGO‐D‐NH2) to give double‐functionalized magnetic nanoparticles as the catalyst. The prepared nanoparticles were characterized to confirm their synthesis and to precisely determine their physicochemical properties. In summary, the prepared catalyst showed marked recyclability and catalytic performance in terms of reaction time and yield of products. The results of this study are hoped to aid the development of a new class of heterogeneous catalysts to show high performance and as excellent candidates for industrial applications.

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A novel electrochemical sensor based on a glassy carbon electrode modified with dendrimer functionalized magnetic graphene oxide for simultaneous determination of trace Pb(II) and Cd(II)

Baghayeri

Alinezhad

Fayazi

et al. 2019

Electrochimica Acta

185

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Magnetic solid-phase extraction of non-steroidal anti-inflammatory drugs from environmental water samples using polyamidoamine dendrimer functionalized with magnetite nanoparticles as a sorbent

Alinezhad

Amiri

Tarahomi

et al. 2018

Talanta

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Immobilizing Pd nanoparticles on the ternary hybrid system of graphene oxide, Fe₃O₄ nanoparticles, and PAMAM dendrimer as an efficient support for catalyzing sonogashira coupling reaction

Tarahomi

Alinezhad

Maleki

2019

Applied Organom Chemis

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An alternative approach to develop a Pd catalyst based on dendrimerfunctionalized graphene oxide for C-C cross-coupling reactions is reported.Pd@MGO-D-NH 2 has been synthesized by incipient wet impregnation method. The structure of the catalyst was thoroughly characterized by a set of analytical techniques such as TEM, BET, SEM/EDS, FTIR, and elemental mapping analysis. Then, the catalytic activity of the catalyst was scrutinized for promoting sonogashira C-C coupling reaction. The results manifested that Pd@MGO-D-NH 2 was able to catalyze the coupling reaction to obtain high coupling yields in short reaction time. The results of present work are hoped to aid the development of new class of heterogeneous catalysts as the high performance candidate for industrial applications.

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