Eric J McLaren scite author profile

Eric J McLaren

4Publications

2Citation Statements Received

44Citation Statements Given

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129

Affiliations

Georgia Institute of Technology, Duke University

Publications

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Three‐Component Difunctionalization of Cyclohexenyl Triflates: Direct Access to Versatile Cyclohexenes via Cyclohexynes

2021

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Difunctionalization of strained cyclic alkynes presents a powerful strategy to build richly functionalized cyclic alkenes in an expedient fashion. Herein we disclose an efficient and flexible approach to achieve carbohalogenation, dicarbofunctionalization, aminohalogenation and aminocarbonation of readily available cyclohexenyl triflates. We have demonstrated the novel use of zincate base/nucleophile system for effective formation of key cyclohexyne intermediates and selective addition of various carbon and nitrogen nucleophiles. Importantly, leveraging the resulting organozincates enables the incorporation of a broad range of electrophilic partners to deliver structurally diverse cyclohexene motifs. The importance and utility of this method is also exemplified by the modularity of this approach and the ease in which even highly complex polycyclic scaffolds can be accessed in one step.

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Front Cover: Rh(II)‐catalyzed Intermolecular Benzylic C(sp³)−H Alkylation of Methyl‐substituted Arenes by N‐Aryl‐α‐diazo‐β‐amidoesters (ChemCatChem 11/2022)

2022

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Three‐Component Difunctionalization of Cyclohexenyl Triflates: Direct Access to Versatile Cyclohexenes via Cyclohexynes

2021

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Rh(II)‐catalyzed Intermolecular Benzylic C(sp³)−H Alkylation of Methyl‐substituted Arenes by N‐Aryl‐α‐diazo‐β‐amidoesters

2022

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Herein, a general approach to intermolecular benzylic C(sp3)−H alkylation of methyl‐substituted arenes is reported using metal carbenes derived from N‐aryl‐α‐diazo‐β‐amidoesters and dirhodium catalysts. Alkylated products were formed in up to 81 % yield with demonstrated functional group tolerance, outpacing previous literature. The unique amide‐ester scaffolding can be exploited through various derivatizations for broad synthetic utility and provides a starting point for the development of selectivity rules and reactivity profiles for these intermolecular C(sp3)−H functionalizations.

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Eric J McLaren

Three‐Component Difunctionalization of Cyclohexenyl Triflates: Direct Access to Versatile Cyclohexenes via Cyclohexynes

Front Cover: Rh(II)‐catalyzed Intermolecular Benzylic C(sp³)−H Alkylation of Methyl‐substituted Arenes by N‐Aryl‐α‐diazo‐β‐amidoesters (ChemCatChem 11/2022)

Three‐Component Difunctionalization of Cyclohexenyl Triflates: Direct Access to Versatile Cyclohexenes via Cyclohexynes

Rh(II)‐catalyzed Intermolecular Benzylic C(sp³)−H Alkylation of Methyl‐substituted Arenes by N‐Aryl‐α‐diazo‐β‐amidoesters

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Eric J McLaren

Three‐Component Difunctionalization of Cyclohexenyl Triflates: Direct Access to Versatile Cyclohexenes via Cyclohexynes

Front Cover: Rh(II)‐catalyzed Intermolecular Benzylic C(sp3)−H Alkylation of Methyl‐substituted Arenes by N‐Aryl‐α‐diazo‐β‐amidoesters (ChemCatChem 11/2022)

Three‐Component Difunctionalization of Cyclohexenyl Triflates: Direct Access to Versatile Cyclohexenes via Cyclohexynes

Rh(II)‐catalyzed Intermolecular Benzylic C(sp3)−H Alkylation of Methyl‐substituted Arenes by N‐Aryl‐α‐diazo‐β‐amidoesters

Contact Info

Product

Resources

About

Front Cover: Rh(II)‐catalyzed Intermolecular Benzylic C(sp³)−H Alkylation of Methyl‐substituted Arenes by N‐Aryl‐α‐diazo‐β‐amidoesters (ChemCatChem 11/2022)

Rh(II)‐catalyzed Intermolecular Benzylic C(sp³)−H Alkylation of Methyl‐substituted Arenes by N‐Aryl‐α‐diazo‐β‐amidoesters