金(I)催化的丙二烯分子间氢胺化反应的机理研究。
Mechanistic study of gold(I)-catalyzed intermolecular hydroamination of allenes.
机构信息
Department of Chemistry, University of California, Berkeley, California 94720, USA.
出版信息
J Am Chem Soc. 2010 Sep 22;132(37):13064-71. doi: 10.1021/ja105530q.
Abstract
The intermolecular hydroamination of allenes occurs readily with hydrazide nucleophiles, in the presence of 3-12% Ph(3)PAuNTf(2). Mechanistic studies have been conducted to establish the resting state of the gold catalyst, the kinetic order of the reaction, the effect of ligand electronics on the overall rate, and the reversibility of the last steps in the catalytic cycle. We have found the overall reaction to be first order in gold and allene and zero order in nucleophile. Our studies suggest that the rate-limiting transition state for the reaction does not involve the nucleophile and that the active catalyst is monomeric in gold(I). Computational studies support an "outersphere" mechanism and predict that a two-step, no intermediate mechanism may be operative. In accord with this mechanistic proposal, the reaction can be accelerated with the use of more electron-deficient phosphine ligands on the gold(I) catalyst.
摘要
烯丙基与酰肼亲核试剂很容易发生分子间的氢胺化反应,在 3-12% Ph(3)PAuNTf(2)的存在下。已经进行了机理研究,以确定金催化剂的休眠状态、反应的动力学顺序、配体电子对总速率的影响以及催化循环中最后几步的可逆性。我们发现,整个反应在金和烯丙基中是一级的,在亲核试剂中是零级的。我们的研究表明,反应的速控过渡态不涉及亲核试剂,并且活性催化剂在金(I)中是单体的。计算研究支持“外球”机理,并预测可能存在两步、无中间物的机理。与这种机理建议一致,反应可以通过在金(I)催化剂上使用更多缺电子的膦配体来加速。
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