σ-Bond Hydroboration of Cyclopropanes

Abstract: Hydroboration of alkenes is a classical reaction in organic synthesis, in which alkenes react with boranes to give alkylboranes, with subsequent oxidation resulting in alcohols. The double bond (π-bond) of alkenes can be readily reacted with boranes owing to its high reactivity. However, the single bond (σ-bond) of alkanes has never been reacted. To pursue the development of σ-bond cleavage, we selected cyclopropanes as model substrates since they present a relatively weak σ-bond. Herein, we describe an iridiu… Show more

“…Examination and optimisation of the reaction parameters were explored using CPA 1a as the substrate and pinacolborane (HBpin) as the borylating source in conjunction with various TM catalysts and ligands ( Table 1 ). As reported, 16 when the reactions were performed with 5 mol% [Ir(cod)OMe] 2 as the catalyst and 2.5 mol% t Bu-Quinox as the ligand at 130 °C for 24 h in toluene, branched boronate 3a was formed in 52% yield together with a small amount of the linear byproduct 2a ( 2a / 3a = 5/95, entry 1). In this study, we focused our attention on product 2a .…”

“…Previous computations by Yamaguchi and Yokogawa showed that the real catalyst is Ir( iii ) species when [Ir(cod)OMe] 2 and ligand t Bu-Quinox are employed. 16 As shown in Fig. 5A , our calculations indicate that the free energy of ring-opening transition state TS12 at the distal C–C bond is 2.2 kcal mol −1 lower than that of TS13 at the proximal C–C bond.…”

“…2 ). The Rh-catalysed C–H borylation proceeds first, 16 followed by C–C activation and hydrogenation (pathway I ). The Rh-catalysed C–C activation and β-H elimination generate an allylic amide, which further undergoes hydroboration (pathway II ).…”

“…Examination and optimisation of the reaction parameters were explored using CPA 1a as the substrate and pinacolborane (HBpin) as the borylating source in conjunction with various TM catalysts and ligands (Table 1). As reported, 16 when the State Key Laboratory of Coordination Chemistry, Chemistry and Biomedicine Innovation Center (ChemBIC), School of Chemistry and Chemical Engineering, Nanjing University, Nanjing 210093, China. E-mail: shiz@nju.edu.cn; yongliang@ nju.edu.cn † Electronic supplementary information (ESI) available.…”

“…1C ). 16 Notably, this elegant chemistry exhibited excellent distal selectivity, resulting in β-methyl alkylboronates. In contrast, herein, we describe a simple and practical method to achieve hydroboration of CPAs via proximal C–C bond cleavage affording γ-amino boronates in the presence of a rhodium complex and a simple phosphine ligand ( Fig.…”

Rhodium-catalysed selective C–C bond activation and borylation of cyclopropanes

“…Examination and optimisation of the reaction parameters were explored using CPA 1a as the substrate and pinacolborane (HBpin) as the borylating source in conjunction with various TM catalysts and ligands ( Table 1 ). As reported, 16 when the reactions were performed with 5 mol% [Ir(cod)OMe] 2 as the catalyst and 2.5 mol% t Bu-Quinox as the ligand at 130 °C for 24 h in toluene, branched boronate 3a was formed in 52% yield together with a small amount of the linear byproduct 2a ( 2a / 3a = 5/95, entry 1). In this study, we focused our attention on product 2a .…”

“…Previous computations by Yamaguchi and Yokogawa showed that the real catalyst is Ir( iii ) species when [Ir(cod)OMe] 2 and ligand t Bu-Quinox are employed. 16 As shown in Fig. 5A , our calculations indicate that the free energy of ring-opening transition state TS12 at the distal C–C bond is 2.2 kcal mol −1 lower than that of TS13 at the proximal C–C bond.…”

“…2 ). The Rh-catalysed C–H borylation proceeds first, 16 followed by C–C activation and hydrogenation (pathway I ). The Rh-catalysed C–C activation and β-H elimination generate an allylic amide, which further undergoes hydroboration (pathway II ).…”

“…Examination and optimisation of the reaction parameters were explored using CPA 1a as the substrate and pinacolborane (HBpin) as the borylating source in conjunction with various TM catalysts and ligands (Table 1). As reported, 16 when the State Key Laboratory of Coordination Chemistry, Chemistry and Biomedicine Innovation Center (ChemBIC), School of Chemistry and Chemical Engineering, Nanjing University, Nanjing 210093, China. E-mail: shiz@nju.edu.cn; yongliang@ nju.edu.cn † Electronic supplementary information (ESI) available.…”

“…1C ). 16 Notably, this elegant chemistry exhibited excellent distal selectivity, resulting in β-methyl alkylboronates. In contrast, herein, we describe a simple and practical method to achieve hydroboration of CPAs via proximal C–C bond cleavage affording γ-amino boronates in the presence of a rhodium complex and a simple phosphine ligand ( Fig.…”

Rhodium-catalysed selective C–C bond activation and borylation of cyclopropanes

Rhodium Catalyzed Regioselective C−H Allylation of Simple Arenes via C−C Bond Activation of Gem‐difluorinated Cyclopropanes

Iridium‐Catalyzed Enantioselective C(sp³)−H Borylation of Aminocyclopropanes