磷化矿
化学
催化作用
苯硼酸
芳基
配体(生物化学)
三环己基膦
磷化氢
组合化学
偶联反应
药物化学
有机化学
烷基
生物化学
受体
作者
Robin B. Bedford,Samantha L. Hazelwood,Peter N. Horton,Michael B. Hursthouse
出处
期刊:Dalton Transactions
[Royal Society of Chemistry]
日期:2003-01-01
卷期号: (21): 4164-4174
被引量:107
摘要
The synthesis of a range of phosphinite ligands PR2(OAr) (R=Ph, Pr-i), their simple complexes with palladium(II) and their palladacyclic complexes has been investigated. The crystal structure of one of the palladacyclic complexes, [{Pd(mu2-Cl){kappa(2)-P, C-(PPr2)-Pr-i(OC6H2-2,4-Bu-t(2))}(2)], has been determined. The palladacyclic complexes show extremely high activity in the Suzuki coupling of aryl bromide substrates with phenylboronic acid and can also be used with alkylboronic acid substrates. A comparison of the phosphinite-based catalysts with equivalent phosphite- and phosphine-based systems highlights their superior activity. The orthometallation of the phosphinite ligand in the pre-catalyst appears to be crucial for optimal activity. While the phosphinite palladacycles are only moderately active in the coupling of activated and non-activated aryl chloride substrates, their tricyclohexylphosphine adducts prove to be highly active in the coupling of the deactivated substrate, 4-chloroanisole. This high activity compared with other palladacyclic systems is explained in terms of catalyst longevity. The orthometallated precatalysts appear to undergo a reductive activation process to generate zerovalent active catalysts via reductive elimination of the orthometallated ring with a phenyl introduced by the boronic acid. This implies that the true active catalysts contain 2-arylated ligands. Catalysts formed with such 2-arylated ligands tend to show markedly higher activity than their parent ligands.
科研通智能强力驱动
Strongly Powered by AbleSci AI