Arghya Deb scite author profile

Site-selective C-H functionalization has emerged as an efficient tool in simplifying the synthesis of complex molecules. Most often, directing group (DG)-assisted metallacycle formation serves as an efficient strategy to ensure promising regioselectivity. A wide variety of ortho- and meta-C-H functionalizations stand as examples in this regard. Yet despite this significant progress, DG-assisted selective para-C-H functionalization in arenes has remained unexplored, mainly because it involves the formation of a geometrically constrained metallacyclic transition state. Here we report an easily recyclable, novel Si-containing biphenyl-based template that directs efficient functionalization of the distal p-C-H bond of toluene by forming a D-shaped assembly. This DG allows the required flexibility to support the formation of an oversized pre-transition state. By overcoming electronic and steric bias, para-olefination and acetoxylation were successfully performed while undermining o- and m-C-H activation. The applicability of this D-shaped biphenyl template-based strategy is demonstrated by synthesizing various complex molecules.

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A general and efficient aldehyde decarbonylation reaction by using a palladium catalyst

Modak

et al. 2012

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Oxidative Trifluoromethylation of Unactivated Olefins: An Efficient and Practical Synthesis of α‐Trifluoromethyl‐Substituted Ketones

et al. 2013

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Palladium-Catalyzed Aryl C–H Olefination with Unactivated, Aliphatic Alkenes

et al. 2014

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Palladium-catalyzed coupling between aryl halides and alkenes (Mizoroki-Heck reaction) is one of the most popular reactions for synthesizing complex organic molecules. The limited availability, problematic synthesis, and higher cost of aryl halide precursors (or their equivalents) have encouraged exploration of direct olefination of aryl carbon-hydrogen (C-H) bonds (Fujiwara-Moritani reaction). Despite significant progress, the restricted substrate scope, in particular noncompliance of unactivated aliphatic olefins, has discouraged the use of this greener alternative. Overcoming this serious limitation, we report here a palladium-catalyzed chelation-assisted ortho C-H bond olefination of phenylacetic acid derivatives with unactivated, aliphatic alkenes in good to excellent yields with high regio- and stereoselectivities. The versatility of this operationally simple method has been demonstrated through drug diversification and sequential C-H olefination for synthesizing divinylbenzene derivatives.

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Iron‐Catalyzed Direct C–H Arylation of Heterocycles and Quinones with Arylboronic Acids

Deb¹,

Manna²,

Maji³

et al. 2013

Eur J Org Chem

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The arylation of C–H bonds to generate heteroaryl–aryl (Het–Ar) and arylated quinone (Quin–Ar) compounds has received great attention to achieve sustainable goals in synthetic chemistry. Despite significant advances, arylation of a broad range of Het–Ar and Quin–Ar derivatives remains a challenging task. Herein, a variety of heterocycles are arylated by using arylboronic acids in the presence of catalytic amounts of inexpensive Fe(NO3)3. The C‐arylated quinone compounds can be prepared by reacting arylboronic acids with either quinone or hydroquinone. The present method is operationally simple, scalable, does not require prefunctionalization of the heterocycle or quinone, and can tolerate a wide variety of functional groups in the coupling partners. These qualities are expected to render this method attractive for academic and industrial use.

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Arghya Deb

Remote para-C–H Functionalization of Arenes by a D-Shaped Biphenyl Template-Based Assembly

A general and efficient aldehyde decarbonylation reaction by using a palladium catalyst

Oxidative Trifluoromethylation of Unactivated Olefins: An Efficient and Practical Synthesis of α‐Trifluoromethyl‐Substituted Ketones

Palladium-Catalyzed Aryl C–H Olefination with Unactivated, Aliphatic Alkenes

Iron‐Catalyzed Direct C–H Arylation of Heterocycles and Quinones with Arylboronic Acids

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