双功能不对称催化:布朗斯特碱性的放大可以使手性布朗斯特酸的反应性呈正交增加。
Bifunctional asymmetric catalysis: amplification of Brønsted basicity can orthogonally increase the reactivity of a chiral Brønsted acid.
机构信息
Department of Chemistry and Vanderbilt Institute of Chemical Biology, Vanderbilt University, Nashville, Tennessee 37235-1822, USA.
出版信息
J Am Chem Soc. 2010 Mar 10;132(9):2880-2. doi: 10.1021/ja908814h.
Abstract
The reactivity of a series of symmetrical chiral Brønsted acids (polar ionic hydrogen-bond donors) follows the counterintuitive trend wherein the more Brønsted basic member is a more effective catalyst for the aza-Henry (nitro-Mannich) reaction. This new design element leads to a substantially more reactive catalyst for the aza-Henry reaction, one that can promote the addition of a secondary nitroalkane. Additionally, when an achiral Brønsted acid (TfOH) is used in slight excess of the neutral, chiral bisamidine ligand, diastereoselection can be optimized to levels generally greater than 15:1 while the enantioselection remains unchanged at generally >90% ee.
摘要
一系列对称手性布朗斯台德酸(极性离子氢键供体)的反应活性遵循违反直觉的趋势,其中更布朗斯台德碱性成员是氮杂 Henry(硝基曼尼希)反应的更有效催化剂。这种新的设计元素导致氮杂 Henry 反应的催化剂具有更高的反应活性,能够促进仲硝基烷的加成。此外,当使用稍过量的中性手性双脒配体的非手性布朗斯台德酸(TfOH)时,可以优化非对映选择性至通常大于 15:1 的水平,而对映选择性通常保持不变,大于 90%ee。
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