A minimal model based on density-functional theory is proposed and solved to explain the unusual chemisorption properties of carbon-monooxide (CO) molecules on Cu(110)-(2 × 1)-O quasi-one-dimensional (1D) surface reported in Feng et al. [ ACS Nano 5 8877 (2011)]. The striking features of CO adsorption include (1) the strong lifting of the host Cu atom by 1 Å, and (2) the highly anisotropic CO-CO interaction leading to self-assembly into a nanograting structure. Our model implies that the 1D nature of the surface band is the key to these two features. We illustrate how formation of a chemical bond through specific orbital interactions between an adsorbate and 1D dispersive states of the substrate can impact the surface geometrical and electronic structure.
Revised: April 9, 2012 |
Published: March 20, 2012
Citation
Lin C., M. Feng, J. Zhao, P. Cabrera-Sanfelix, A. Arnau, D. Sanchez-Portal, and H. Petek. 2012.Theory of orthogonal interactions of CO molecules on a one-dimensional substrate.Physical Review. B, Condensed Matter and Materials Physics 85, no. 12:125426. doi:10.1103/PhysRevB.85.125426