Unimolecular Fragment Coupling: A New Bond-Forming Methodology via the Deletion of Atom(s)

Shimazumi, Ryoma; Tobisu, Mamoru

doi:10.1021/jacsau.3c00827

JACS Au

2024

DOI: 10.1021/jacsau.3c00827

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Unimolecular Fragment Coupling: A New Bond-Forming Methodology via the Deletion of Atom(s)

Ryoma Shimazumi,

Mamoru Tobisu

Abstract: Unimolecular fragment coupling (UFC) is defined as a reaction format, wherein atom(s) located in the middle of a molecule are extruded, and the remaining fragments are coupled. UFC is a potentially powerful strategy that is an alternative to transition-metal-catalyzed cross-coupling because the target chemical bond is formed in an intramolecular fashion, which is inherently beneficial for chemoselectivity and stereoselectivity issues. In this Perspective, we will present an overview of the recent advances in U… Show more

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Cited by 2 publications

References 151 publications

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A Highly Efficient Cross‐Coupling Mode via the Release of Small Molecules: Transition Metal‐Catalyzed Unimolecular Fragment Coupling (UFC)

Tian,

Uei,

et al. 2024

ChemCatChem

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As a recently developed redox‐neutral coupling reaction, transition‐metal‐catalyzed unimolecular fragment coupling (UFC) has been extensively investigated over the past decade. In comparison to conventional cross‐coupling reactions, cross‐electrophilic coupling (XEC) and cross‐dehydrogenative coupling (CDC) protocol does not necessitate the utilization of stoichiometric organometallic reagents, reductants, or oxidants. Additionally, it produces only minimal molecular by‐products for the formation of a series of C–C bonds and C–X bonds with high atom efficiency. This review presents a summary and classification of the research progress made over the past decade in this field. The research is classified into four main categories, decarbonylation, decarboxylation, desulfonylation, and deisocyanation, according to the type of small molecule that is liberated from the reaction system. This facilitates the implementation of more practical, straightforward, and expedient reaction operations. It is noteworthy that the reaction employs carbonyl compounds (aldehydes, ketones, carboxylic acid derivatives, etc.), sulfones, and amides, which are typically inexpensive and accessible, as reaction substrates. This groundbreaking synthetic approach has since yielded a plethora of outcomes and novel research avenues in related fields, while also offering benefits to other related fields.

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A Highly Efficient Cross‐Coupling Mode via the Release of Small Molecules: Transition Metal‐Catalyzed Unimolecular Fragment Coupling (UFC)

Tian,

Uei,

et al. 2024

ChemCatChem

View full text Add to dashboard Cite

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KO^tBu-Catalyzed Synthesis of Isoindole Derivatives from N-Benzyl Amides Bearing an Ortho Alkynyl Group via 1,2-Acyl Shift

Shimazumi,

Morimoto,

Tobisu

2024

Org. Lett.

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Unimolecular Fragment Coupling: A New Bond-Forming Methodology via the Deletion of Atom(s)

Cited by 2 publications

References 151 publications

A Highly Efficient Cross‐Coupling Mode via the Release of Small Molecules: Transition Metal‐Catalyzed Unimolecular Fragment Coupling (UFC)

A Highly Efficient Cross‐Coupling Mode via the Release of Small Molecules: Transition Metal‐Catalyzed Unimolecular Fragment Coupling (UFC)

KO^tBu-Catalyzed Synthesis of Isoindole Derivatives from N-Benzyl Amides Bearing an Ortho Alkynyl Group via 1,2-Acyl Shift

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Unimolecular Fragment Coupling: A New Bond-Forming Methodology via the Deletion of Atom(s)

Cited by 2 publications

References 151 publications

A Highly Efficient Cross‐Coupling Mode via the Release of Small Molecules: Transition Metal‐Catalyzed Unimolecular Fragment Coupling (UFC)

A Highly Efficient Cross‐Coupling Mode via the Release of Small Molecules: Transition Metal‐Catalyzed Unimolecular Fragment Coupling (UFC)

KOtBu-Catalyzed Synthesis of Isoindole Derivatives from N-Benzyl Amides Bearing an Ortho Alkynyl Group via 1,2-Acyl Shift

Contact Info

Product

Resources

About

KO^tBu-Catalyzed Synthesis of Isoindole Derivatives from N-Benzyl Amides Bearing an Ortho Alkynyl Group via 1,2-Acyl Shift