Max Surke scite author profile

Max Surke

2Publications

5Citation Statements Received

26Citation Statements Given

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University of Göttingen

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Electrocatalyzed direct arene alkenylations without directing groups for selective late-stage drug diversification

et al. 2023

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Electrooxidation has emerged as an increasingly viable platform in molecular syntheses that can avoid stoichiometric chemical redox agents. Despite major progress in electrochemical C−H activations, these arene functionalizations generally require directing groups to enable the C−H activation. The installation and removal of these directing groups call for additional synthesis steps, which jeopardizes the inherent efficacy of the electrochemical C−H activation approach, leading to undesired waste with reduced step and atom economy. In sharp contrast, herein we present palladium-electrochemical C−H olefinations of simple arenes devoid of exogenous directing groups. The robust electrocatalysis protocol proved amenable to a wide range of both electron-rich and electron-deficient arenes under exceedingly mild reaction conditions, avoiding chemical oxidants. This study points to an interesting approach of two electrochemical transformations for the success of outstanding levels of position-selectivities in direct olefinations of electron-rich anisoles. A physical organic parameter-based machine learning model was developed to predict position-selectivity in electrochemical C−H olefinations. Furthermore, late-stage functionalizations set the stage for the direct C−H olefinations of structurally complex pharmaceutically relevant compounds, thereby avoiding protection and directing group manipulations.

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Electrolyser design controls position-divergent C-H carboxylation

2023

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Max Surke

Electrocatalyzed direct arene alkenylations without directing groups for selective late-stage drug diversification

Electrolyser design controls position-divergent C-H carboxylation

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