Synthesis of highly substituted dihydro-2-oxopyrroles using Fe3O4@nano-cellulose–OPO3H as a novel bio-based magnetic nanocatalyst

Naeimeh Salehi; Bi Bi Fatameh Mirjalili

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Synthesis of highly substituted dihydro-2-oxopyrroles using Fe₃O₄@nano-cellulose–OPO₃H as a novel bio-based magnetic nanocatalyst

机译：Fe _{3 O _{4 @纳米纤维素–OPO _{3 H作为新型生物基磁性材料的合成高度取代的二氢-2-氧吡咯纳米催化剂}}}

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A bio-based magnetic nanocatalyst (Fe₃O₄@nano-cellulose–OPO₃H) has been made via immobilization of –OPO₃H groups on a Fe₃O₄@nano-cellulose surface. Fe₃O₄@nano-cellulose was synthesized by co-precipitation of Fe3+ and Fe2+ salts in an aqueous suspension of nano-cellulose. The catalyst was characterized by FT-IR, FESEM, XRD, TGA, VSM, EDX, XRF and BET. It has been proved that such a heterogeneous catalyst shows high efficiency for the synthesis of dihydro-2-oxopyrrole derivatives via four-component reactions of amines, dialkyl acetylenedicarboxylates and aldehydes under mild reaction conditions. The present procedure is a green and environmental friendly approach that offers many advantages including high yield, easy work-up, simple recovery and reusability of the catalyst.

机译：一种生物基磁性纳米催化剂（Fe _{3 O _{4 @纳米纤维素–OPO _{3 H）是通过将–OPO _{3 H基团固定在Fe 上而制成的。 _{3 O _{4 @纳米纤维素表面。通过共沉淀Fe 合成Fe _{3 O _{4 @纳米纤维素纳米纤维素水悬浮液中的3 + 和Fe 2 + 盐。通过FT-IR，FESEM，XRD，TGA，VSM，EDX，XRF和BET对催化剂进行表征。业已证明，这种非均相催化剂在温和的反应条件下通过胺，乙炔基二羧酸二烷基酯和醛的四组分反应合成二氢-2-氧代吡咯衍生物的效率很高。本方法是一种绿色环保的方法，具有许多优点，包括产率高，后处理容易，催化剂易于回收和可重复使用。}}}}}}}}

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《RSC Advances》 |2017年第48期|共7页
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Naeimeh Salehi; Bi Bi Fatameh Mirjalili;
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Synthesis of highly substituted dihydro-2-oxopyrroles using Fe3O4@nano-cellulose–OPO3H as a novel bio-based magnetic nanocatalyst

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Synthesis of highly substituted dihydro-2-oxopyrroles using Fe₃O₄@nano-cellulose–OPO₃H as a novel bio-based magnetic nanocatalyst