Abstract
In this study, we used scanning tunneling microscopy (STM) and density functional theory (DFT) to examine the bonding structure of CH3N adsorbed on the Cu(110) surface. A previous study [Chin. J. Phys.2005, 43, 212–218] shows the adsorbed CH3N aggregate to form a zigzag structure with a p(2 × 3) unit cell, without considering the possibility of adsorbate-induced surface reconstruction. Here, we propose a revised adsorption structure, with the key feature of bonding each CH3N with two Cu adatoms in a tetrahedral manner. Three structure models (double-row, dimer, and alternative-dimer) are examined by ab initio calculations. We find that the most energetically favorable model is the double-row model with CH3N bonding alternatingly along either side of double added rows from Cu adatoms.
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