The [BP<sub>3</sub> <sup>iPr</sup>]Co(I) synthon Na(THF)<sub>6</sub>{[BP<sub>3</sub> <sup>iPr</sup>]CoI} (1, [BP<sub>3</sub> <sup>iPr</sup>] = κ<sup>3</sup>-PhB(CH<sub>2</sub>P <sup>i</sup>Pr<sub>2</sub>)<sub>3</sub><sup>-</sup>) reacts with PhSiH<sub>3</sub> or SiH<sub>4</sub> to form unusual {[BP<sub>2</sub> <sup>iPr</sup>](SiH<sub>2</sub>R)CoH<sub>2</sub>}═Si═{H<sub>2</sub>Co[BP<sub>3</sub> <sup>iPr</sup>]} species (R = Ph, 2a; R = H, 2b; [BP<sub>2</sub> <sup>iPr</sup>] = κ<sup>2</sup>-PhB(CH<sub>2</sub>P <sup>i</sup>Pr<sub>2</sub>)<sub>2</sub>) that result from activation of all Si-H and Si-C bonds in the starting silanes. Solution-spectroscopic data (multinuclear NMR, IR) for 2a,b, and the solid-state structure of 2a, indicate substantial Co═Si═Co multiple bonding and minimal interaction of the core Si atom with nearby hydride ligands. In the presence of 4-dimethylaminopyridine (DMAP), 1 reacts with PhSiH<sub>3</sub> to give [BP<sub>3</sub> <sup>iPr</sup>](H)<sub>2</sub>CoSiHPh(DMAP) (3). Complexes 2a,b eliminate RSiH<sub>3</sub> upon thermolysis in the presence of DMAP to generate {[BP<sub>2</sub> <sup>iPr</sup>]Co(NC<sub>5</sub>H<sub>3</sub>NMe<sub>2</sub>)}═Si═{H<sub>2</sub>Co[BP<sub>3</sub> <sup>iPr</sup>]} (4).
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