Abstract
Glaser‐like coupling of terminal alkynes by thermal activation is extensively used in on‐surface chemistry. Here we demonstrate an intramolecular version of this reaction performed by atom manipulation. We used voltage pulses from the tip to trigger a Glaser‐like coupling between terminal alkyne carbons within a custom‐synthesized precursor molecule adsorbed on bilayer NaCl on Cu(111). Different conformations of the precursor molecule and the product were characterized by molecular structure elucidation with atomic force microscopy and orbital density mapping with scanning tunneling microscopy, accompanied by density functional theory calculations. We revealed partially dehydrogenated intermediates, providing insight into the reaction pathway.
We demonstrated a Glaser‐like coupling reaction by atom manipulation. The intramolecular reaction was performed within a single molecule, facilitated by the design of the precursor molecule. By using high‐resolution atomic force microscopy, we revealed precursors, intermediates, and products. Resolving and manipulating the positions of individual hydrogen atoms in intermediates provided information about the reaction pathway.