Also known as: Suzuki-Miyaura cross-coupling
The Suzuki cross-coupling reaction is the organic reaction of an organohalide with an organoborane to give the coupled product using a palladium catalyst and base. 4-Bromoisoxazol-3-amine Data Sheet The mechanism begins with oxidative addition of the organohalide to the Pd(0) to form a Pd(II) complex. 1,3-Benzoxazol-5-amine site A molecule of the hydroxide or alkoxide base then replaces the halide on the palladium complex, while another adds to the organoborane to form a borate regent making its R group more nucleophilic. Transmetalation with the borate then follows where its R group replaces the halide anion on the palladium complex. Reductive elimination then gives the final coupled product, regenerates the palladium catalyst, and the catalytic cycle can begin again. [1][2]
Mechanism
References:
1. |
Miyaura, N.; Yamada, K.; Suzuki, A. Tetrahedron Letters 1979, 20, 3437–3440.
|