Scanning tunneling microscopy studies of oxygen adsorption on Cu(111)

The adsorption of O-2 on Cu(1 1 1) at room temperature has been investigate d by scanning tunneling microscopy (STM) and low energy electron diffractio n (LEED), Adsorption of oxygen leads to formation of a surface oxide by inc orporation of Cu atoms from step edges and terraces. This process is most r apid along the close packed direction of the surface and leads to mesoscopi c changes in surface morphology. Three characteristic features were observe d during the initial stage of adsorption; dark fringes along the Cu(1 1 1) step edges, dark domains within the Cu(1 1 1) terrace, and rather mobile li ght patches on top of the Cu terraces. Within these regions atomic scale fe atures could be imaged and the structure related to that of Cu2O. The dark fringes and dark domains grew slowly in oxygen, whereas the bright patches only became visible when gas-phase O-2 was evacuated. STM observation at el evated temperatures indicates mobilization and rearrangement of surface fea tures formed during room temperature adsorption. O/Cu(111) surfaces anneale d at 473-623 K indicated a well ordered (root 73R5.8 degrees x root 21R - 1 0.9 degrees) lattice structure ('44'-structure) on the terraces which was a lso confirmed by LEED. Annealing up to 723 K exhibited slight disordering o f this lattice structure presumably due to inter-diffusion of O and Cu atom s with the balk. The mesoscopic process of oxygen adsorption onto the clean Cu(1 1 1) surface was also investigated at elevated temperature by STM, Th e reaction of the surface maintained at temperatures between 373 and 773 K was investigated for oxygen pressures in the 10(-5)-10(-3) Pa range. The ox idized surface formed at 373 K was largely disordered with only small areas of the '44'-structure (root 73R5.8 degrees x root 21R - 10.9 degrees). Wel l-ordered adlattices of the '44'-structure were formed upon O-2 exposure at 473 K. Such surfaces could be converted to the '29'-structure (root 13R46. 1 degrees x 7R21.8 degrees) by annealing at 673 K in vacuum. On the basis o f the STM images we propose a new model for the '29' structure. Annealing a t higher temperatures (similar to 773 K) retrieved the '44'-structure in sm all domains on a disordered background. A disordered oxide surface which wa s produced at room temperature and annealed at 723 K can be ordered into th e '44'-structure by O-2 exposure and heating at 623 K. (C) 2001 Elsevier Sc ience B.V. All rights reserved.