The Mechanism of Rh(I)-Catalyzed Coupling of Benzotriazoles and Allenes Revisited: Substrate Inhibition, Proton Shuttling, and the Role of Cationic vs Neutral Species

Jannsen, Nora; Reiß, Fabian; Drexler, Hans-Joachim; Konieczny, Katharina; Beweries, Torsten; Heller, Detlef

doi:10.1021/jacs.4c02679

J. Am. Chem. Soc.

2024

DOI: 10.1021/jacs.4c02679

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The Mechanism of Rh(I)-Catalyzed Coupling of Benzotriazoles and Allenes Revisited: Substrate Inhibition, Proton Shuttling, and the Role of Cationic vs Neutral Species

Nora Jannsen,

Fabian Reiß,

Hans-Joachim Drexler

et al.

Abstract: Direct coupling of benzotriazole to unsaturated substrates such as allenes represents an atom-efficient method for the construction of biologically and pharmaceutically interesting functional structures. In this work, the mechanism of the N 2selective Rh complex-catalyzed coupling of benzotriazoles to allenes was investigated in depth using a combination of experimental and theoretical techniques. Substrate coordination, inhibition, and catalyst deactivation was probed in reactions of the neutral and cationic … Show more

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Cited by 2 publications

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Rhodium-Catalyzed Enantioselective Ring-Openings of Oxabicyclic Alkenes with Azole Nucleophiles

Zambri,

Grewal,

Lautens

et al. 2024

J. Org. Chem.

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We report enantioselective ring-openings of oxabicyclic alkenes with azole nucleophiles, generating heterocyclebearing dihydronaphthalene products. Pyrazoles, triazoles, tetrazoles, and benzo-fused derivatives participate in the ring-opening, with the level of regioselectivity depending on the type and substitution pattern of the heterocyclic partner. Electron-withdrawing azole substituents have a beneficial effect, suppressing the unproductive complexation of a nitrogen with the Rh(I)bis(phosphine) catalyst.

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Rhodium-Catalyzed Enantioselective Ring-Openings of Oxabicyclic Alkenes with Azole Nucleophiles

Zambri,

Grewal,

Lautens

et al. 2024

J. Org. Chem.

View full text Add to dashboard Cite

show abstract

Tuning the Pyridone Scaffold within a Rhodium-NHC Platform for gem-Specific Alkyne Dimerization via a Ligand-Assisted Proton Shuttle Mechanism

Español-Sánchez,

Galiana-Cameo,

Urriolabeitia

et al. 2024

Organometallics

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A series of mononuclear square-planar Rh{κ 2 N,O-BHetA}(η 2coe)(NHC) (BHetA = Bis-Heteroatomic Acidato) complexes have been prepared. Modifications of the pyridonato BHetA-type ligand architecture include 4-Me, 5-Me, 6-Me, 3-Br, 4-Br, 4-OMe, and 5-NO 2 substitutions as well as pyrimidonato, succinimidato, and 2-piperidonato catalysts. Two structural isomers have been observed for the complexes, depending on the stereoelectronic properties of the ligand. The structure−activity relationship has been studied for gem-specific alkyne dimerization via a cooperative ligandassisted proton shuttle mechanism. Density functional theory calculations have revealed a mechanistic pathway involving the hemilabile coordination of the BHetA ligand, CMD deprotonation, π-alkyne protonation, and reductive elimination. The increase in oxygen basicity imparted by the substituent in the pyridonato ligand is key, the 4-methyl derivative being the most active catalyst. However, a favored iminol−amide tautomerization precludes an increase in catalytic activity for the more basic saturated piperidonato catalyst.

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The Mechanism of Rh(I)-Catalyzed Coupling of Benzotriazoles and Allenes Revisited: Substrate Inhibition, Proton Shuttling, and the Role of Cationic vs Neutral Species

Cited by 2 publications

References 69 publications

Rhodium-Catalyzed Enantioselective Ring-Openings of Oxabicyclic Alkenes with Azole Nucleophiles

Rhodium-Catalyzed Enantioselective Ring-Openings of Oxabicyclic Alkenes with Azole Nucleophiles

Tuning the Pyridone Scaffold within a Rhodium-NHC Platform for gem-Specific Alkyne Dimerization via a Ligand-Assisted Proton Shuttle Mechanism

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