Nicola Camedda scite author profile

Trinuclear all-metal aromatic clusters are an original class of molecules with a cyclic and planar metal core. Characterized by peculiar metal–metal delocalized bonds, they represent a new frontier in transition-metal catalysis. We report a study on C–C-forming reactions of polyunsaturated substrates catalyzed by trinuclear all-metal aromatic palladium clusters. The synthesis of two new families of tricyclic compounds was obtained with a broad functional group tolerance under mild reaction conditions. A peculiar regio- and diastereoselectivity characterized the method, demonstrating that trinuclear palladium complexes are complementary to their popular mononuclear peers. Furthermore, preliminary studies on the mechanism of these polycyclization reactions revealed unique features of the homogeneous catalytic system.

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Ambient Synthesis of Tricyclic Naphthalenes via Stepwise Styryl-yne Dearomative Diels–Alder Cyclization

Camedda

Lanzi

Bigi

et al. 2021

Org. Lett.

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A cascade of styrylynols promoted by MnO2 allows the synthesis of fused tricycles with a naphthalene core. The reaction occurs under ambient conditions, offering a practical synthetic tool because of the inexpensive and abundant manganese species. The method affords products through the sequential oxidation of a propargyl alcohol, stepwise Diels–Alder cyclization, and finally rearomatization. According to density functional theory, the usually unfavorable stepwise Diels–Alder mechanism is instead a general tool for eliciting otherwise challenging dearomative annulation.

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Sequential Strategies to Trigger Mild Dearomative Diels–Alder Cyclizations

et al. 2023

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Dihydronaphthalenes are present in several functional molecules, but their assembly is challenging. However, a sequential strategy can induce the key annullation of an alkyne with a vinylarene under mild conditions. Products form in good yields, with ample functional tolerance via domino nucleophilic substitution and dearomative Diels−Alder and ene reactions. DFT modeling data show that alkali cations are crucial to ensure a smooth dearomative cyclization on the in situ generated intermediates.

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Functionalization of Alkenyl C–H Bonds with D2O via Pd(0)/Carboxylic Acid Catalysis

et al. 2020

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We report herein a simple catalytic method for the extensive labeling of alkenyl C–H bonds through the combination of a palladium(0) complex and a carboxylic acid in the presence of deuterium oxide. The reaction can be applied to a variety of terminal alkenes and the best results are obtained with aryl-substituted examples. This method represents a convenient approach for the preparation of extensively labeled chemicals from the cheapest and safest source of deuterium.

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Bicyclic 5-6 Systems With One Bridgehead (Ring Junction) Nitrogen Atom: Two Extra Heteroatoms 2:0 and 0:2 - Synthetic Aspects

Maestri

Serafino

Camedda

2022

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Nicola Camedda

Inter/Intramolecular Cascade of 1,6-Enynes Catalyzed by All-Metal Aromatic Tripalladium Complexes and Carboxylic Acids

Ambient Synthesis of Tricyclic Naphthalenes via Stepwise Styryl-yne Dearomative Diels–Alder Cyclization

Sequential Strategies to Trigger Mild Dearomative Diels–Alder Cyclizations

Functionalization of Alkenyl C–H Bonds with D2O via Pd(0)/Carboxylic Acid Catalysis

Bicyclic 5-6 Systems With One Bridgehead (Ring Junction) Nitrogen Atom: Two Extra Heteroatoms 2:0 and 0:2 - Synthetic Aspects

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