Rhodium‐Catalyzed Synthesis of Chiral Spiro‐9‐silabifluorenes by Dehydrogenative Silylation: Mechanistic Insights into the Construction of Tetraorganosilicon Stereocenters

Abstract: Mechanistic insight into the construction of quaternary silicon chiral centers by rhodium-catalyzed synthesis of spiro-9-silabifluorenes through dehydrogenative silylation is reported. The C2 -symmetric bisphosphine ligand, BINAP, was effective in controlling enantioselectivity, and axially chiral spiro-9-silabifluorenes were obtained in excellent yields with high enantiomeric excess. Monitoring of the reaction revealed the presence of a monohydrosilane intermediate as a mixture of two constitutional isomers. … Show more

“…Carbene insertion [10] and alcoholysis [11] are also very efficient and highly enantioselective.T he more challenging cross-coupling reaction with aryl iodide has been described. [13] Other desymmetrization reactions that did not involve silicon atom in the bond formation, such as the [2+ +2+ +2] cycloaddition, [14] C À H bond activation, [15] and b-elimination of silacyclopentene oxides, [16] were also developed. [13] Other desymmetrization reactions that did not involve silicon atom in the bond formation, such as the [2+ +2+ +2] cycloaddition, [14] C À H bond activation, [15] and b-elimination of silacyclopentene oxides, [16] were also developed.…”

“…[1] However,t oo ur knowledge,o nly three examples have been reported for the synthesis of dibenzosiloles with silicon stereogenic centers. [13][14][15] We commenced our study by using SCB [23,24] 1a and 2chlorothiophene 2a as the model substrates under the catalysis of Rh(cod)Cl (10 mol %) ( Table 1). No reaction took place in the absence of al igand (entry 1).…”

Construction of Chiral Tetraorganosilicons by Tandem Desymmetrization of Silacyclobutanes/Intermolecular Dehydrogenative Silylation

“…Carbene insertion [10] and alcoholysis [11] are also very efficient and highly enantioselective.T he more challenging cross-coupling reaction with aryl iodide has been described. [13] Other desymmetrization reactions that did not involve silicon atom in the bond formation, such as the [2+ +2+ +2] cycloaddition, [14] C À H bond activation, [15] and b-elimination of silacyclopentene oxides, [16] were also developed. [13] Other desymmetrization reactions that did not involve silicon atom in the bond formation, such as the [2+ +2+ +2] cycloaddition, [14] C À H bond activation, [15] and b-elimination of silacyclopentene oxides, [16] were also developed.…”

“…[1] However,t oo ur knowledge,o nly three examples have been reported for the synthesis of dibenzosiloles with silicon stereogenic centers. [13][14][15] We commenced our study by using SCB [23,24] 1a and 2chlorothiophene 2a as the model substrates under the catalysis of Rh(cod)Cl (10 mol %) ( Table 1). No reaction took place in the absence of al igand (entry 1).…”

Construction of Chiral Tetraorganosilicons by Tandem Desymmetrization of Silacyclobutanes/Intermolecular Dehydrogenative Silylation

“…4–9 However, little information on the mechanism of enantioselective variants of these reactions is available. 10–18 Preliminary mechanistic data on enantioselective silylation of C–H bonds have been reported, 11,17,18 but systematic mechanistic studies involving the isolation of reaction intermediates and kinetic analysis of the process have not been conducted. Most relevant to the work reported here, little information on the origins of enantioselectivities has been gained.…”

Mechanistic Studies on Rhodium-Catalyzed Enantioselective Silylation of Aryl C–H Bonds

“…[15,16] Examples of using this concept to create stereogenic phosphorus [17] or silicon atoms [18] are more scarce.R elated methods to access chiral sulfur atoms are,tothe best of our knowledge,elusive, except for as ingle example for chiral sulfoxides reported by Wang and co-workers. [15,16] Examples of using this concept to create stereogenic phosphorus [17] or silicon atoms [18] are more scarce.R elated methods to access chiral sulfur atoms are,tothe best of our knowledge,elusive, except for as ingle example for chiral sulfoxides reported by Wang and co-workers.…”

Enantioselective Synthesis of Chiral‐at‐Sulfur 1,2‐Benzothiazines by Cp^xRh^III‐Catalyzed C−H Functionalization of Sulfoximines