Shouliang Yang scite author profile

Hindered ethers represent an underexplored area of chemical space due to the difficulty and inoperability associated with conventional reactions, despite the high-value of such structural motifs in a variety of societal applications 1-2. For example, such motifs are highly coveted in medicinal chemistry, as extensive substitution about the ether bond prevents unwanted metabolic processes that can lead to rapid in vivo degradation. Demonstrated herein is an exceptionally simple solution to this problem that leverages the power of electrochemical oxidation to liberate *

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A Radical Approach to Anionic Chemistry: Synthesis of Ketones, Alcohols, and Amines

Padial

et al. 2019

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Historically accessed through two-electron, anionic chemistry, ketones, alcohols, and amines are of foundational importance to the practice of organic synthesis. After placing this work in proper historical context, this Article reports the development, full scope, and a mechanistic picture for a strikingly different way of forging such functional groups. Thus, carboxylic acids, once converted to redox-active esters (RAEs), can be utilized as formally nucleophilic coupling partners with other carboxylic derivatives (to produce ketones), imines (to produce benzylic amines), or aldehydes (to produce alcohols). The reactions are uniformly mild, operationally simple, and, in the case of ketone synthesis, broad in scope (including several applications to the simplification of synthetic problems and to parallel synthesis). Finally, an extensive mechanistic study of the ketone synthesis is performed to trace the elementary steps of the catalytic cycle and provide the end-user with a clear and understandable rationale for the selectivity, role of additives, and underlying driving forces involved.

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A General Amino Acid Synthesis Enabled by Innate Radical Cross‐Coupling

et al. 2018

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The direct union of primary, secondary, and tertiary carboxylic acids with a chiral glyoxylate-derived sulfinimine provides rapid access into a variety of enantiomerically pure α-amino acids (>85 examples). Characterized by operational simplicity, this radical-based reaction enables the modular assembly of exotic α-amino acids, including both unprecedented structures and those of established industrial value. The described method performs well in high-throughput library synthesis, and has already been implemented in three distinct medicinal chemistry campaigns.

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Shouliang Yang

Hindered dialkyl ether synthesis with electrogenerated carbocations

A Radical Approach to Anionic Chemistry: Synthesis of Ketones, Alcohols, and Amines

A General Amino Acid Synthesis Enabled by Innate Radical Cross‐Coupling

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