1.1.6金与钯、镍或铑的双重催化

N. Patil, A. G. Tathe, V. W. Bhoyare
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引用次数: 1

摘要

利用金催化剂的软π酸性质可获得的独特中间体,使其成为双金属催化反应的有吸引力的选择。与钯、镍或铑一起,每一种都有自己独特的特征,与金的双重催化在安装碳-碳和碳杂原子键方面提供了独特的反应性和选择性。例如,金与钯的双重催化可以成为交叉偶联反应的先进工具。另一方面,与钯不同,镍更容易受到单电子氧化还原过程的影响,因此可以提供与钯相似或不同的反应性。另一个潜在的候选者,铑,被认为是与金的双重催化,因为它显示出独特的反应性,如C-H活化/金属转化和共轭加成。与使用单金属催化剂系统相比,这种双金属结合导致通过交叉偶联、环加成或重排高效的一锅方法来合成高度区域和立体选择性的分子。
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1.1.6 Gold Dual Catalysis with Palladium, Nickel, or Rhodium
The unique intermediates accessible by exploiting the soft π-acid character of gold catalysts, make them an attractive option for dual metal catalysis reactions. Together with palladium, nickel, or rhodium, each having their own distinct character, dual catalysis with gold offers exclusive opportunities for reactivity and selectivity in installing carbon–carbon and carbon–heteroatom linkages. For instance, gold dual catalysis with palladium can be an advanced tool for cross-coupling reactions. On the other hand, unlike palladium, nickel is more readily susceptible to single-electron redox processes and hence can offer reactivity both parallel to and different from that of palladium. Another potential candidate, rhodium, is considered for dual catalysis with gold because it showcases unique reactivity such as C–H activation/transmetalation and conjugate addition. When compared to using single-metal catalyst systems, such dual-metal associations result in efficient one-pot approaches to highly regio- and stereoselective syntheses of molecules via cross couplings, cycloadditions, or rearrangements.
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1.1.4 Iridium/Zinc and Iridium/Copper Dual Catalysis Back Matter 1.2.3 Palladium/Photocatalyst Dual Catalysis 1.1.5 Gold/Iron Dual Catalysis 1.2.2 Nickel/Photocatalyst Dual Catalysis
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