Abstract

Insertion of a variety of alkynes into the Ir−H bond of trans-[IrH(PPh3)2(C(Ph)CHC(O)Me)(acetone)]+ (1) follows three different routes depending on the alkyne structures. For relatively electron-rich alkynes (PhC⋮CH, PhCH2C⋮CH, and p-OMeC6H4C⋮CH), double insertion occurs stepwise, each alkyne undergoing rearrangement to a vinylidene intermediate independently to afford an iridium(III) η2-butadienyl. In the first alkyne insertion, deuterium labeling and crossover experiments confirm that the alkyne to vinylidene rearrangement is intraligand. Both a vinyl and a vinylidene intermediate were trapped and isolated during this first insertion. In the second alkyne insertion, a C−H agostic intermediate was isolated. Electron-poor alkynes (p-CF3C6H4C⋮CH and p-NO2C6H4C⋮CH) also undergo double insertion into 1, but deuterium labeling experiments using p-CF3C6H4C⋮CD indicate reversible C(sp)−H oxidative addition. Insertion of highly polarized alkynes [R1C⋮CC(O)R2] to 1 occurs only once and involves no vinylidene inte...

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