Srashti Bhardwaj scite author profile

In this review, the coupling of two carbene precursors for the synthesis of alkenes is surveyed.The key to selective carbene coupling is the difference in the rate of carbene generation between the two carbene precursors. This strategy requires judicious selection between two carbene precursors as well as fine-tuning of reaction conditions to obtain the desired chemo-and stereoselectivity. These couplings were carried out in the presence and absence of a metal catalyst. The present review describes inter-and intramolecular coupling of diazo compounds and cross-coupling between diazo and non-diazo compounds. 1.Introduction 2.

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Bidirectional Iterative Approach to Sequence-Defined Unsaturated Oligoesters

Bhardwaj

Gopalakrishnan

Garg

et al. 2023

JACS Au

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Herein, we describe the development of a new strategy for the synthesis of unsaturated oligoesters via sequential metal- and reagent-free insertion of vinyl sulfoxonium ylides into the O–H bond of carboxylic acid. Like two directional coupling of amino acids (N- to C-terminal and C- to N-terminal) in peptide synthesis, the present approach offers a strategy in both directions to synthesize oligoesters. The sequential addition of the vinyl sulfoxonium ylide to the carboxylic acids (acid iteration sequence) in one direction and the sequential addition of the carboxylic acids to the vinyl sulfoxonium ylide (ylide iteration sequence) in another direction yield (Z)-configured unsaturated oligoesters. To perform this iteration, we have developed a highly regioselective insertion of vinyl sulfoxonium ylide into the X–H (X = O, N, C, S, halogen) bond of acids, thiols, phenols, amines, indoles, and halogen acids under metal-free reaction conditions. The insertion reaction is applied to a broad range of substrates (>50 examples, up to 99% yield) and eight iterative sequences. Mechanistic studies suggest that the rate-limiting step depends on the type of X–H insertion.

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Srashti Bhardwaj

Synthesis of Olefins by Formal Carbene Coupling

Bidirectional Iterative Approach to Sequence-Defined Unsaturated Oligoesters

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