Sodium-Modified Fluorapatite: A Mild and Efficient Reusable Catalyst for the Synthesis of &i&α,α&/i&’-Bis(Substituted Benzylidene) Cycloalkanones under Conventional Heating and Microwave Irradiation

Bahija Mounir; Fathallaah Bazi; Abddelfetah Mounir; Mohamed Zahouily; Hamid Toufik

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Sodium-Modified Fluorapatite: A Mild and Efficient Reusable Catalyst for the Synthesis of &i&α,α&/i&’-Bis(Substituted Benzylidene) Cycloalkanones under Conventional Heating and Microwave Irradiation

机译：钠改性的氟磷灰石：一种在常规加热和微波辐射下合成i，α，α/ i'-Bis（取代的亚苄基）环烷酮的温和高效的可重复使用催化剂

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A versatile and environmentally friendly method for α,α’-bis(substituted ben-zylidene) cycloalkanones has been developed using a heterogeneous catalysis technology. We have synthesized a series of the α,α’-bis(substituted benzylidene) cycloalkanones, a biologically important class of compounds, via the cross aldol condensation between arylaldehydes and cycloketones using sodium-modified fluorapatite (Na/FAP) as a highly efficient solid catalyst under conventional heating in aqueous media and solventless conditions under microwave. Catalyst reuse, ease of separation of the pure product, and high yields are some of the unique features of this process. Shorter reaction times (4 - 7 min) and higher yields (80% - 94%) were achieved under microwave irradiation conditions.

机译：利用非均相催化技术开发了一种通用且环保的α，α′-双（取代的苯并亚苄基）环烷酮方法。我们通过使用钠修饰的氟磷灰石（Na / FAP）作为芳族化合物，通过芳醛与环酮之间的交叉羟醛缩合合成了一系列重要的生物类化合物α，α'-双（取代的亚苄基）环烷酮。常规介质中在水介质中加热和在无溶剂条件下在微波下催化剂催化剂的重复使用，易于分离纯净的产品以及高收率是该工艺的独特之处。在微波辐射条件下，反应时间更短（4-7分钟），产率更高（80％-94％）。

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《Green and Sustainable Chemistry》 |2018年第2期|共10页
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Bahija Mounir; Fathallaah Bazi; Abddelfetah Mounir; Mohamed Zahouily; Hamid Toufik;
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中图分类环境科学、安全科学;
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Sodium-Modified Fluorapatite: A Mild and Efficient Reusable Catalyst for the Synthesis of &i&α,α&/i&’-Bis(Substituted Benzylidene) Cycloalkanones under Conventional Heating and Microwave Irradiation

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