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首页> 外文期刊>The Journal of Organic Chemistry >A pH-Switchable Electrostatic Catalyst for the Diels-Alder Reaction: Progress toward Synthetically Viable Electrostatic Catalysis
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A pH-Switchable Electrostatic Catalyst for the Diels-Alder Reaction: Progress toward Synthetically Viable Electrostatic Catalysis

机译:用于Diels-Alder反应的pH可切换的静电催化剂:综合活性静电催化的进展

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摘要

Density functional theory calculations at the SMD/M06-2X/6-31+G(d,p)//M06-2X/6-31G(d) level of theory have been used to computationally design and test a pH-switchable electrostatic organocatalyst for Diels-Alder reactions. The successful catalyst design, bis(3-(3-phenylureido)benzyl)ammonium, was studied for the reaction of p-quinone with range of cyclic, heterocyclic, and acycic dienes and also the reaction of cyclopentadiene with maleimide and N-phenylmaleimide. All reactions showed significant enhancements in catalysis (10-32 kJ mol(-1) in barrier lowering) when the catalyst was protonated, consistent with electrostatic stabilization of the transition state. Electrostatic effects were found to diminish in polar solvents but were predicted to remain significant in nonpolar solvents.
机译:SMD / M06-2X / 6-31 + G(d,p)// m06-2x / 6-31g(d)理论水平的密度函数理论计算已被用于计算和测试pH可切换的静电 有机催化剂为Diels-Alder反应。 研究了催化剂设计,双(3-(3-(3-(3-(3-(3-(3-苯基)苄基)铵,用于对醌,杂环和无菌二烯的范围的反应以及环戊二烯与马来酰亚胺和N-苯基酰亚胺的反应。 当催化剂被质子化时,所有反应均显示出催化剂的催化(10-32 kJ摩尔(-1)中的禁区中的显着增强,与过渡状态的静电稳定化一致。 发现静电效应在极性溶剂中减少,但预计在非极性溶剂中保持显着。

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