• الصفحة الرئيسية
  • Pistachio peel biomass derived magnetic nanoparticles Fe3O4@C-SO3H: a highly efficient catalyst for the synthesis of isoxazole-5(4H)-one, 1-amido alkyl-2-naphthol, pyrano[2,3-c]pyrazole and 2,3-dihydro quinazoline-4(1H)-one derivatives

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عنوان URL للمقالة


رقم المقالة : IJC-2107-1852 (R1) زيارة : 45 الصفحة: 139 - 157

10.30495/ijc.2022.690999

نوع المخطوط: ابحاث

Pistachio peel biomass derived magnetic nanoparticles Fe3O4@C-SO3H: a highly efficient catalyst for the synthesis of isoxazole-5(4H)-one, 1-amido alkyl-2-naphthol, pyrano[2,3-c]pyrazole and 2,3-dihydro quinazoline-4(1H)-one derivatives

الموضوعات : Iranian Journal of Catalysis

Fatemeh Ghorbani 1 (School of Chemistry, Damghan University Damghan, Iran)
Seied Ali Pourmousavi 2 (School of Chemistry, Damghan University Damghan, Iran|Institute of Biological Science, Damghan University Damghan, Iran)

تاريخ الإرسال : 24 الأحد , ذو القعدة, 1442 تاريخ التأكيد : 07 الخميس , شعبان, 1443 تاريخ الإصدار : 02 الأربعاء , ذو القعدة, 1443

الکلمات المفتاحية: biomass, pistachio peel, Magnetic nanocatalyst, Isoxazole, amido alkylnaphthol, pyrano pyrazole, dihydro quinazolin,

ملخص المقالة :

Green chemistry has fostered research on recyclable, insoluble, and easily separable heterogeneous catalysts. Carbon materials are widely used for renewable energy and environmental studies. Here, we used green Pistachio peel, a biomass waste for the synthesis of magnetic carbon-based solid acid (Fe3O4@C-SO3H) by carbonization and sulfonation. The physicochemical properties of the nanocatalyst were characterized using XRD, FT-IR, FE-SEM, TGA, VSM, and TEM. The catalytic activity of Fe3O4@C-SO3H was investigated in the synthesis of isoxazole-5(4H)-one, 1-amido alkyl-2-naphthol, pyrano[2,3-c]pyrazole, and 2,3-dihydro quinazoline-4(1H)-one derivative, and some of the synthesized compounds were screened for their anti-microbial activity. Furthermore, the recovery and reuse of the catalyst were demonstrated six times without detectible loss inactivity. The concentration of H+ loaded on the Fe3O4@C-SO3H was reported to be 1.3 mmol g-1. The well-defined Fe3O4@C-SO3H core–shell heterostructures exhibited high stability, efficient recyclability (6 cycles).

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