Maxime De Abreu scite author profile

Carbon–carbon bond formation reactions are of longstanding interest in organic chemistry. Improvements of the methods targeting its creation are still being performed, especially thanks to the development of innovative methodologies in transition metal catalysis and photocatalysis. This review will tackle the combination of transition metal and photoredox cycles to create carbon–carbon bonds, focusing on the four transition metals most reported in the literature in this domain: Ni, Pd, Au and Cu.

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Cyclic Diaryl λ³-Bromanes: A Rapid Access to Molecular Complexity via Cycloaddition Reactions

Lanzi

Abdine

Abreu

et al. 2021

Org. Lett.

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Biaryls have widespread applications in organic synthesis. However, sequentially polysubstituted biaryls are underdeveloped due to their challenging preparation. Herein, we report the synthesis of dissymetric 2,3,2′,3′,4-substituted biaryls via pericyclic reactions of cyclic diaryl λ3-bromanes. The functional groups tolerance and atom economy allow access to molecular complexity in a single reaction step. Continuous flow protocol has been designed for the scale-up of the reaction, while postfunctionalizations have been developed taking advantage of the residual Br-atom.

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Maxime De Abreu

Synergistic Photoredox/Transition‐Metal Catalysis for Carbon–Carbon Bond Formation Reactions

Cyclic Diaryl λ³-Bromanes: A Rapid Access to Molecular Complexity via Cycloaddition Reactions

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Maxime De Abreu

Synergistic Photoredox/Transition‐Metal Catalysis for Carbon–Carbon Bond Formation Reactions

Cyclic Diaryl λ3-Bromanes: A Rapid Access to Molecular Complexity via Cycloaddition Reactions

Contact Info

Product

Resources

About

Cyclic Diaryl λ³-Bromanes: A Rapid Access to Molecular Complexity via Cycloaddition Reactions