1.2.4金/光催化剂双催化

L. Barriault, M. Zidan, S. Rohe
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引用次数: 0

摘要

众所周知,在经典的双电子交叉耦合中使用金催化剂是不切实际的,因为金(I)/金(III)的氧化电位很高[例如,E0 (AuI/AuIII) = +1.36 V]。然而,当与光催化剂串联使用时,金中心可以一次氧化一个电子,使与金的交叉偶联反应更可行。金(III)中间体在其还原消除步骤之前也具有作为路易斯酸的潜力,这促进了多键形成双催化转化的发展。这种双催化策略也应用于光催化剂与有机催化剂的反应中,以实现传统上具有挑战性的交叉偶联。
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1.2.4 Gold/Photocatalyst Dual Catalysis
The use of gold catalysts in classical two-electron cross-couplings is notoriously impractical due to the high oxidation potential of gold(I)/gold(III) [e.g., E0 (AuI/AuIII) = +1.36 V]. However, when used in tandem with photocatalysts, the gold center can be oxidized one electron at a time, making cross-coupling style reactions with gold more viable. The gold(III) intermediate also has the potential to act as a Lewis acid prior to its reductive elimination step, which has spurred development of multi-bond-forming dual catalytic transformations. This dual-catalytic strategy is also applied in reactions with gold as a photocatalyst in conjunction with an organocatalyst to effectuate traditionally challenging cross couplings.
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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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