早期主族金属催化：金属有多重要？

Early main group metal catalysis: how important is the metal?

机构信息

Stratingh Institute for Chemistry, University of Groningen, Nijenborgh 4, 9747 AG Groningen (The Netherlands).

出版信息

Angew Chem Int Ed Engl. 2015 Jan 2;54(1):201-6. doi: 10.1002/anie.201408814. Epub 2014 Nov 5.

DOI:10.1002/anie.201408814

Abstract

Organocalcium compounds have been reported as efficient catalysts for various alkene transformations. In contrast to transition metal catalysis, the alkenes are not activated by metal-alkene orbital interactions. Instead it is proposed that alkene activation proceeds through an electrostatic interaction with a Lewis acidic Ca(2+) . The role of the metal was evaluated by a study using the metal-free catalysts: [Ph2 N(-) ][Me4 N(+) ] and [Ph3 C(-) ][Me4 N(+) ]. These "naked" amides and carbanions can act as catalysts in the conversion of activated double bonds (CO and CN) in the hydroamination of ArNCO and RNCNR (R=alkyl) by Ph2 NH. For the intramolecular hydroamination of unactivated CC bonds in H2 CCHCH2 CPh2 CH2 NH2 the presence of a metal cation is crucial. A new type of hybrid catalyst consisting of a strong organic Schwesinger base and a simple metal salt can act as catalyst for the intramolecular alkene hydroamination. The influence of the cation in catalysis is further evaluated by a DFT study.

摘要

有机钙化合物已被报道为各种烯烃转化的有效催化剂。与过渡金属催化相反，烯烃不是通过金属-烯烃轨道相互作用激活的。相反，据推测，烯烃的激活是通过与路易斯酸性 Ca(2+) 的静电相互作用进行的。金属的作用通过使用无金属催化剂的研究进行了评估：[Ph2 N(-) ][Me4 N(+) ]和[Ph3 C(-) ][Me4 N(+) ]。这些“裸露”的酰胺和碳负离子可以在 ArNCO 和 RNCNR（R=烷基）的氨化反应中充当催化剂，将活化的双键（CO 和 CN）转化为 Ph2 NH。对于 H2 CCHCH2 CPh2 CH2 NH2 中未活化的 CC 键的分子内氨化，金属阳离子的存在至关重要。由强有机 Schwesinger 碱和简单金属盐组成的新型混合催化剂可作为分子内烯烃氨化反应的催化剂。阳离子在催化中的影响进一步通过 DFT 研究进行了评估。

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早期主族金属催化：金属有多重要？

Early main group metal catalysis: how important is the metal?

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