Mn(III)‐Based Oxidative Cyclization of Alkenes Using Tricarbonyl System

Abstract: The Mn(III)-based oxidation of 1,1-disubstituted ethenes with 2-(2-aryl-2-oxoethyl)malonates, 2-acetyl-4-aryl-4-oxobutanoates, and 3-acetyl-1-arylpentane-1,4-diones was evaluated. The reaction using the malonates mainly gave the 2,3-dihydro-4Hpyran-4,4-dicarboxylates along with g-lactones. A similar reaction using the acetyloxobutanoates and acetylpentanediones produced the 2,3,3a,6a-tetrahydrofuro[2, 3-b]furans and the corresponding dihydropyrans. The cyclization was strongly affected by the nucleophilicity o… Show more

“…Moreover, an excess of the oxidizable substrate might help to avoid a possible competitive oxidation of the reaction product . In fact, most of the Mn-based protocols furnishing endoperoxides involve a large excess of β-ketoester. − In our case, it is noteworthy that the best result (75% yield) was obtained employing only a slight excess of methyl acetoacetate (1.5 equiv). The model derived from the DoE study indicates that the excess of β-ketoester 1 does not have relevant consequences on the reaction outcome; therefore, we decided to proceed with the reaction scale-up employing only 1 equiv of substrate 1 aiming to decrease the process costs, mass intensity, and to facilitate the product purification.…”

Multidecagram Scale Synthesis of an Endoperoxide, Precursor of Anti-malarial and Anti-leishmanial Agents, via Free-Radical [2 + 2 + 2] Annulation with Molecular Oxygen

“…Moreover, an excess of the oxidizable substrate might help to avoid a possible competitive oxidation of the reaction product . In fact, most of the Mn-based protocols furnishing endoperoxides involve a large excess of β-ketoester. − In our case, it is noteworthy that the best result (75% yield) was obtained employing only a slight excess of methyl acetoacetate (1.5 equiv). The model derived from the DoE study indicates that the excess of β-ketoester 1 does not have relevant consequences on the reaction outcome; therefore, we decided to proceed with the reaction scale-up employing only 1 equiv of substrate 1 aiming to decrease the process costs, mass intensity, and to facilitate the product purification.…”

Multidecagram Scale Synthesis of an Endoperoxide, Precursor of Anti-malarial and Anti-leishmanial Agents, via Free-Radical [2 + 2 + 2] Annulation with Molecular Oxygen

“…Among them, 1,3-dicarbonyl enolates are the most powerful and convenient chemical species for organic synthesis . We have studied the chemistry of the 1,3-dicarbonyl enolate radicals produced by Mn­(III)-mediated oxidation and synthesized many unique organic molecules. , Recently, we reported carbon–carbon bond formation and cyclization using the reactions of tricarbonyl and tetracarbonyl systems, for example, the reaction of 2-oxoethyl-1,3-dicarbonyl compounds with alkenes, which produced dihydropyrans and tetrahydrofuro­[2,3- b ]­furans, and the reaction of methylenebis­(cyclohexanedione)­s, which selectively gave spirodihydrofurans and dispirocyclopropanes . On the other hand, the Mn­(III)-catalyzed aerobic oxidation of 1,3-dicarbonyl enolates led to endoperoxidation and hydroperoxidation reactions .…”

Rearrangement of Methylenebis(cyclohexane-1,3-dione) Enols Induced by Mn(III)-Catalyzed Aerobic Oxidation

Mn(III)acetate-mediated additions of active methylene compounds to bicyclic olefins: Synthesis of bicyclic olefin-fused dihydrofurans