Octahydrocyclopenta[c]pyridine Scaffold – Enantioselective Synthesis and Indole Annulation

Abstract: An optically active hexahydrocyclopenta[c]pyridine derivative with quaternary stereocenter was prepared as a new heterocyclic scaffold. Key reaction was the Pd‐catalyzed asymmetric allylic alkylation of a piperidine‐based β‐oxoester, which proceeded in very good yield with high level of enantioselectivity (90 %, 95 % ee). The α‐allyl moiety was transformed into a 1,4‐diketone by Pd‐catalyzed Wacker oxidation with molecular oxygen (89 %). This intermediate was cyclized in an intramolecular aldol reaction furnis… Show more

“…However, these approaches rely on the utilization of superstoichiometric amounts of chemical oxidants, such as manganese­(III) acetate, and highly elaborate starting materials to form the intended products. In 2016, Christoffers and co-workers utilized a novel umpolung approach for the oxidative cross-coupling reaction of β-dicarbonyl compounds with enol acetates by employing catalytic amounts of cerium trichloride hydrate as a one-electron oxidant . In this strategy, although the issues of employing stoichiometric metal-based oxidants were circumvented, a large excess of one of the coupling partners is required, thus significantly reducing the atom economy of the developed protocol.…”

“…In 2016, Christoffers and co-workers utilized a novel umpolung approach for the oxidative cross-coupling reaction of β-dicarbonyl compounds with enol acetates by employing catalytic amounts of cerium trichloride hydrate as a one-electron oxidant. 7 In this strategy, although the issues of employing stoichiometric metal-based oxidants were circumvented, a large excess of one of the coupling partners is required, thus significantly reducing the atom economy of the developed protocol. In 2019, Hilt and co-workers demonstrated the electrochemical synthesis of C–C bonds between β-dicarbonyl compounds and an excess of the silyl enol ether coupling partner (5.0 equiv) in the presence of catalytic amounts of manganese salts.…”

Silver-Catalyzed Radical Umpolung Cross-Coupling of Silyl Enol Ethers with Activated Methylene Compounds: Access to Diverse Tricarbonyl Derivatives

“…However, these approaches rely on the utilization of superstoichiometric amounts of chemical oxidants, such as manganese­(III) acetate, and highly elaborate starting materials to form the intended products. In 2016, Christoffers and co-workers utilized a novel umpolung approach for the oxidative cross-coupling reaction of β-dicarbonyl compounds with enol acetates by employing catalytic amounts of cerium trichloride hydrate as a one-electron oxidant . In this strategy, although the issues of employing stoichiometric metal-based oxidants were circumvented, a large excess of one of the coupling partners is required, thus significantly reducing the atom economy of the developed protocol.…”

“…In 2016, Christoffers and co-workers utilized a novel umpolung approach for the oxidative cross-coupling reaction of β-dicarbonyl compounds with enol acetates by employing catalytic amounts of cerium trichloride hydrate as a one-electron oxidant. 7 In this strategy, although the issues of employing stoichiometric metal-based oxidants were circumvented, a large excess of one of the coupling partners is required, thus significantly reducing the atom economy of the developed protocol. In 2019, Hilt and co-workers demonstrated the electrochemical synthesis of C–C bonds between β-dicarbonyl compounds and an excess of the silyl enol ether coupling partner (5.0 equiv) in the presence of catalytic amounts of manganese salts.…”

Silver-Catalyzed Radical Umpolung Cross-Coupling of Silyl Enol Ethers with Activated Methylene Compounds: Access to Diverse Tricarbonyl Derivatives

Selective Glucocorticoid Receptor Modulators

Electrochemical, Manganese-Assisted Carbon–Carbon Bond Formation between β-Keto Esters and Silyl Enol Ethers