Balaram Raya scite author profile

Readily accessible (i-PrPDI)CoCl2 [i-Pr PDI = 2,6-bis(2,6-diisopropylphenyliminoethyl)pyridine] reacts with 2 equivalents of NaEt3BH at −78 °C in toluene to generate a catalyst that effects highly selective anti-Markovnikov hydrosilylation of the terminal double bond in 1,3- and 1,4-dienes. Primary and secondary silanes such as PhSiH3, Ph2SiH2 and PhSi(Me)H2 react with a broad spectrum of terminal dienes without affecting the configuration of the other double bond. When dienes conjugated to an aromatic ring are involved, both Markovnikov and anti-Markovnikov products are formed. The reaction is tolerant of various functional groups such as an aryl bromide, aryl iodide, protected alcohol, and even a silyl enol ether. Reactions of 1-alkene under similar conditions cleanly lead to a mixture of Markovnikov and anti-Markovnikov hydrosilation products, where ratio of the products increasingly favors the latter, as the size of the 2,6-substituents in the iminoylaryl group becomes larger. The complex (i-PrPDI)CoCl2 gives exclusively the linear silane for a wide variety of terminal alkenes. Mechanistic studies suggest a pathway that involves a key role for an in situ generated metal hydride, (L)Co(I)-H. Exclusive reduction of the terminal double bond (vis-a-vis hydrosilylation) when (EtO)2Si(Me)H is used in the place of PhSiH3 is explained on the basis of an alternate silane-mediated decomposition path for the linear Co(I)-alkyl intermediate.

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A permethrin metabolite is associated with adaptive immune responses in Gulf War Illness

Joshi

Pearson

Evans

et al. 2019

Brain, Behavior, and Immunity

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Selective Cobalt-Catalyzed Reduction of Terminal Alkenes and Alkynes Using (EtO)₂Si(Me)H as a Stoichiometric Reductant

2016

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While attempting to effect Co-catalyzed hydrosilylation of β-vinyl trimethylsilyl enol ethers we discovered that depending on the silane, solvent and the method of generation of the reduced cobalt catalyst, a highly efficient and selective reduction or hydrosilylation of an alkene can be achieved. This paper deals with this reduction reaction, which has not been reported before in spite of the huge research activity in this area. The reaction, which uses an air-stable [2,6-di(aryliminoyl)pyridine)]CoCl2 activated by 2 equivalents of NaEt3BH as a catalyst (0.001–0.05 equiv) and (EtO)2SiMeH as the hydrogen source, is best run at ambient temperature in toluene and is highly selective for the reduction of simple unsubstituted 1-alkenes and the terminal double bonds in 1,3- and 1,4-dienes, β-vinyl ketones and silyloxy dienes. The reaction is tolerant of various functional groups such as a bromide, alcohol, amine, carbonyl, and di or trisubstituted double bonds, and water. Highly selective reduction of a terminal alkyne to either an alkene or alkane can be accomplished by using stoichiometric amounts of the silane. Preliminary mechanistic studies indicate that the reaction is stoichiometric in the silane and both hydrogens in the product come from the silane.

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Organocatalytic nitrenoid transfer: metal-free selective intermolecular C(sp³)–H amination catalyzed by an iminium salt

et al. 2018

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Balaram Raya

Control of Selectivity through Synergy between Catalysts, Silanes, and Reaction Conditions in Cobalt-Catalyzed Hydrosilylation of Dienes and Terminal Alkenes

A permethrin metabolite is associated with adaptive immune responses in Gulf War Illness

Selective Cobalt-Catalyzed Reduction of Terminal Alkenes and Alkynes Using (EtO)₂Si(Me)H as a Stoichiometric Reductant

Organocatalytic nitrenoid transfer: metal-free selective intermolecular C(sp³)–H amination catalyzed by an iminium salt

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Balaram Raya

Control of Selectivity through Synergy between Catalysts, Silanes, and Reaction Conditions in Cobalt-Catalyzed Hydrosilylation of Dienes and Terminal Alkenes

A permethrin metabolite is associated with adaptive immune responses in Gulf War Illness

Selective Cobalt-Catalyzed Reduction of Terminal Alkenes and Alkynes Using (EtO)2Si(Me)H as a Stoichiometric Reductant

Organocatalytic nitrenoid transfer: metal-free selective intermolecular C(sp3)–H amination catalyzed by an iminium salt

Contact Info

Product

Resources

About

Selective Cobalt-Catalyzed Reduction of Terminal Alkenes and Alkynes Using (EtO)₂Si(Me)H as a Stoichiometric Reductant

Organocatalytic nitrenoid transfer: metal-free selective intermolecular C(sp³)–H amination catalyzed by an iminium salt