What question did this study set out to answer?

The research aims to explore efficient strategies for activating aromatic C-H bonds under mild conditions through molecular conformation.

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March 25, 2026

Selective aryl C–H activation governed by molecular nonplanar conformation on Au(111)

Key Points

The research aims to explore efficient strategies for activating aromatic C-H bonds under mild conditions through molecular conformation.
Utilized scanning tunneling microscopy for characterization
Applied density functional theory calculations for analysis
Investigated the effects of molecular nonplanar conformation on C-H bond activation
Achieved selective activation of aromatic C-H bonds under milder reaction conditions
Demonstrated that nonplanar conformation increases proximity to catalytic surfaces
Significantly lowered reaction temperatures while enhancing selectivity

Abstract

The selective activation of aromatic C-H bonds remains a formidable challenge in synthetic chemistry due to their inherent inertness and similar chemical environments. In this study, we demonstrate a novel strategy for achieving efficient aryl C-H activation under mild conditions. Combined characterization using scanning tunneling microscopy and density functional theory calculations reveals that the molecular nonplanar conformation, driven by spatial hindrance, brings specific C-H bonds on the naphthyl moieties into closer proximity to the catalytic surface. This proximity facilitates surface-assisted activation, which significantly lowers the reaction temperature and enhances selectivity concurrently. Our work provides a new avenue for precise molecular synthesis through conformational control at surfaces.

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Selective aryl C–H activation governed by molecular nonplanar conformation on Au(111)

Key Points

Abstract

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