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Deciphering the Mechanism of On-Surface Dehydrogenative C–C Coupling Reactions

Qigang Zhong, Jannis Jung, Daniel Kohrs, L. Alix Kaczmarek, Daniel Ebeling, Doreen Mollenhauer, Hermann A. Wegner, André Schirmeisen

2024Journal of the American Chemical Society13 citationsDOI

Abstract

coupling is one of the most popular on-surface reactions, of which the mechanisms, however, have not been well understood due to the lack of microscopic insights into the intermediates that are fleetingly existing under harsh reaction conditions. Here, we bypass the most energy-demanding initiation step to generate and capture some of the intermediates at room temperature (RT) via the cyclodehydrobromination of 1-bromo-8-phenylnaphthalene on a Cu(111) surface. Bond-level scanning probe imaging and manipulation in combination with DFT calculations allow for the identification of chemisorbed radicals, cyclized intermediates, and dehydrogenated products. These intermediates correspond to three main reaction steps, namely, debromination, cyclization (radical addition), and H elimination. H elimination is the rate-determining step as evidenced by the predominant cyclized intermediates. Furthermore, we reveal a long-overlooked pathway of dehydrogenation, namely, atomic hydrogen-catalyzed H shift and elimination, based on the observation of intermediates for H shift and superhydrogenation and the proof of a self-amplifying effect of the reaction. This pathway is further corroborated by comprehensive theoretical analysis on the reaction thermodynamics and kinetics.

Topics & Concepts

ChemistryDehydrogenationReaction intermediateRadicalReductive eliminationReaction mechanismReactive intermediateCoupling reactionCovalent bondComputational chemistryElimination reactionPhotochemistryKineticsCombinatorial chemistryCatalysisOrganic chemistryQuantum mechanicsPhysicsSurface Chemistry and CatalysisMolecular Junctions and NanostructuresQuantum Dots Synthesis And Properties
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