Enantioselective Rh(II)-Catalyzed Desymmetric Cycloisomerization of Diynes: Constructing Furan-Fused Dihydropiperidines with an Alkyne-Substituted Aza-Quaternary Stereocenter

Abstract: Described herein is an enantioselective dirhodium(II)-catalyzed cycloisomerization of diynes achieved by the strategy of desymmetrization, which not only represents a new cycloisomerization reaction of diynes but also constitutes the first Rh(II)-catalyzed asymmetric intramolecular cycloisomerization of 1,6-diynes. This protocol provides a range of valuable furan-fused dihydropiperidine derivatives with an enantiomerically enriched alkynylsubstituted aza-quaternary stereocenter in high efficiency, complete ato… Show more

“…Most reported X-ray crystal structures of dirhodium complexes contain bound axial ligands, usually solvent but sometimes substrates, other ligands, or other complexes (i.e., in coordination polymers). − Even though dirhodium complexes have been known since the 1960s, it was not until 2002 that an X-ray crystal structure of a dirhodium complex without axial ligands was reported . The few reported X-ray structures of dirhodium carbenes crystallize as coordination polymers: OMe or NMe 2 groups present in the carbene appendants coordinate to the rhodium not bearing the carbene carbon of the next unit. , These complexes require CH 2 Cl 2 and toluene to be stable in crystalline form and their unit cells contain highly disordered solvent molecules …”

Effects of Axial Solvent Coordination to Dirhodium Complexes on the Reactivity and Selectivity in C–H Insertion Reactions: A Computational Study

“…Most reported X-ray crystal structures of dirhodium complexes contain bound axial ligands, usually solvent but sometimes substrates, other ligands, or other complexes (i.e., in coordination polymers). − Even though dirhodium complexes have been known since the 1960s, it was not until 2002 that an X-ray crystal structure of a dirhodium complex without axial ligands was reported . The few reported X-ray structures of dirhodium carbenes crystallize as coordination polymers: OMe or NMe 2 groups present in the carbene appendants coordinate to the rhodium not bearing the carbene carbon of the next unit. , These complexes require CH 2 Cl 2 and toluene to be stable in crystalline form and their unit cells contain highly disordered solvent molecules …”

Effects of Axial Solvent Coordination to Dirhodium Complexes on the Reactivity and Selectivity in C–H Insertion Reactions: A Computational Study

“…See the Supporting Information). One should emphasize that similar conclusions have been made by Darko and co-workers in their study of the dirhodium catalysts with tethered axial coordinating groups, thioethers in particular. − Therefore, we explain the observed rate acceleration upon reaction of the carbene and unactivated traps in our studies through axial coordination with the rhodium carbene.…”

In Situ Kinetic Studies of Rh(II)-Catalyzed C–H Functionalization to Achieve High Catalyst Turnover Numbers

“…Since these processes are generally induced by alkyne π-bond activation, transition metal catalysts have been well studied for the selective construction of these cyclic products. 1 Among them, cycloisomerization of 1,6-enynes with introduction of functional groups 2 or hydrogen migration 3 has been developed for the synthesis of bicyclo[3.1.0]hexanes (Scheme 1a), which are important core structures found in many biologically active compounds. 4 However, although the methods based on the activation of acyloxy (Scheme 1b) 2 i or hydroxy groups 2 g ,3 d of propargyl alcohol derivatives have been reported, the cycloisomerization of enynones through the activation of carbonyl groups into bicyclo[3.1.0]hexanes has not been achieved.…”

Cycloisomerization of enynones by aluminum halides: construction of bicyclo[3.1.0]hexanes by introducing halides