Cobalt Phosphino-α-Iminopyridine-Catalyzed Hydrofunctionalization of Alkenes: Catalyst Development and Mechanistic Analysis

Chu, Wan-Yi; Gilbert-Wilson, Ryan; Rauchfuss, Thomas B.; Gastel, Maurice van; Neese, Frank

doi:10.1021/acs.organomet.6b00457

Cited by 32 publications

(15 citation statements)

References 79 publications

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“…Cobalt‐catalyzed hydrosilylation is a growing field with a number of highly efficient catalysts reported in recent years. The cobalt‐catalyzed hydrosilylation reactions reported by Holland, Huang and Fout (vide supra, Figure ) are proposed to follow the Chalk–Harrod mechanism, in agreement with an in‐depth investigation on mechanistic aspects, using a cobalt‐bound phosphine substituted 2‐iminopyridine ligand, as published by Rauchfuss, van Gastel and co‐workers . A rare example in which the specific role of a cooperative ligand is determined was shown by Peters and co‐workers with a diphosphine‐borane cobalt‐dinitrogen complex (Figure , right), where the silane substrate is activated between the metal and the ligand backbone by addition of –SiHPh 2 to Co and insertion of the hydride into the Co–B bond …”

Section: Resultssupporting

confidence: 82%

Cobalt(II) and (I) Complexes of Diphosphine‐Ketone Ligands: Catalytic Activity in Hydrosilylation Reactions

et al. 2019

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The hydrosilylation of unsaturated compounds homogeneously catalyzed by cobalt complexes has gained considerable attention in the last years, aiming at substituting precious metal‐based catalysts. In this study, the catalytic activity of well‐characterized CoII and CoI complexes of the pToldpbp ligand is demonstrated in the hydrosilylation of 1‐octene with phenylsilane. The CoI complex is the better precatalyst for the mentioned reaction under mild conditions, at 1 mol‐% catalyst, 1 h, room temperature, and without solvent, yielding 84 % of octylphenylsilane. Investigation of the substrate scope shows lower performance of the catalyst in styrene hydrosilylation, but excellent results with allylbenzene (84 %) and acetophenone (> 99 %). This catalytic study contributes to the field of cobalt‐catalyzed hydrosilylation reactions and shows the first example of catalysis employing the dpbp ligand in combination with a base metal.

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Section: Resultssupporting

confidence: 82%

Cobalt(II) and (I) Complexes of Diphosphine‐Ketone Ligands: Catalytic Activity in Hydrosilylation Reactions

et al. 2019

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“…The activity of the R PQpy complexes was higher, and these complexes, especially those based on cobalt, were the focus of catalytic studies. Together with our previous report on more flexible PNN ligands, 16,17 the present results show that catalytic activity is highly sensitive to the ligand backbone. The quinoline-based PQpy ligands vs PNN ligands based on aldimines both coordinate in a meridional manner, but the M(PQpy) cores are almost perfectly planar.…”

Section: Scheme 3 Synthesis Of the Mes Nqpy Ligandsupporting

confidence: 88%

“…In the presence of 1-octene and triethoxysilane or heptamethyltrisiloxane, Co(PNpy)-based catalysts preferentially effected alkene isomerization, not hydrosilylation. 17 In this report, we redesigned the PNN platform in an effort to improve performance for hydrosilylation. We also were attentive to problems of autoionization, a process that deactivates precatalysts according to eq 1.…”

Section: ■ Introductionmentioning

confidence: 99%

“…Cobalt and iron complexes of phosphine-2-iminopyridine (PNpy) ligands were recently reported by us as catalysts for hydrosilylation. , The phosphine-imine-pyridine (PNpy) platform features the redox noninnocent 2-iminopyridine module as seen in many hydrosilylation catalysts (Figure ). ,, The phosphine substituent provides a strongly anchoring substituent that is tunable electronically and sterically.…”

Section: Introductionmentioning

confidence: 99%

“…The Co-PNpy complexes exhibit excellent activity for the anti-Markovnikov hydrosilylation of 1-octene with Ph 2 SiH 2 . In the presence of 1-octene and triethoxysilane or heptamethyltrisiloxane, Co(PNpy)-based catalysts preferentially effected alkene isomerization, not hydrosilylation …”

Section: Introductionmentioning

confidence: 99%

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Fe and Co Complexes of Rigidly Planar Phosphino-Quinoline-Pyridine Ligands for Catalytic Hydrosilylation and Dehydrogenative Silylation

et al. 2018

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Co and Fe dihalide complexes of a new rigidly planar PNN ligand platform are prepared and examined as precatalysts for hydrosilylation of alkenes. Lithiation of Thummel’s 8-bromo-2-(pyrid-2′-yl)quinoline followed by treatment with (i-Pr)2PCl and (C6F5)2PCl afforded the phosphine-quinoline-pyridine ligands, abbreviated RPQpy for R = i-Pr and C6F5, respectively. These ligands form 1:1 adducts with the dichlorides and dibromides of iron and cobalt. Crystallographic characterization of FeBr2(iPrPQpy), FeBr2(ArFPQpy), CoCl2(iPrPQpy), CoBr2(iPrPQpy), and CoCl2(ArFPQpy) confirmed that the M–P–C–C–N–C–C–N portion of these complexes is planar within 0.078 Å unlike previous generations of PNN complexes where deviations from planarity were ∼0.35 Å. Bond distances as well as magnetism indicate that the Fe complexes are high spin and the cobalt complexes are high spin or participate in spin equilibria. Also investigated were the NNN analogues of the RPQpy ligands, wherein the phosphine group was replaced by the mesityl ketimine. The complexes FeBr2(MesNQpy) and CoCl2(MesNQpy) were characterized crystallographically. Reduction of MX2(RPQpy) complexes with NaBHEt3 generates catalysts active for anti-Markovnikov silylation of simple and complex 1-alkenes with a variety of hydrosilanes. Catalysts derived from MesNQpy exhibited low activity. Fe-RPQpy derived catalysts favor hydrosilylation, whereas Co-RPQpy based catalysts favor dehydrogenative silylation. Catalysts derived from CoX2(iPrPQpy) convert hydrosilanes and ethylene to vinylsilanes. Related experiments were conducted on propylene to give propenylsilanes.

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Hydrosilylation Catalyzed by Base Metals

Sunada

Nagashima

2019

Organosilicon Chemistry

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Cobalt Phosphino-α-Iminopyridine-Catalyzed Hydrofunctionalization of Alkenes: Catalyst Development and Mechanistic Analysis

Cited by 32 publications

References 79 publications

Cobalt(II) and (I) Complexes of Diphosphine‐Ketone Ligands: Catalytic Activity in Hydrosilylation Reactions

Cobalt(II) and (I) Complexes of Diphosphine‐Ketone Ligands: Catalytic Activity in Hydrosilylation Reactions

Fe and Co Complexes of Rigidly Planar Phosphino-Quinoline-Pyridine Ligands for Catalytic Hydrosilylation and Dehydrogenative Silylation

Hydrosilylation Catalyzed by Base Metals

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