| Title | What determines the structures formed by oxygen at low index surfaces of copper? |
| Publication Type | Journal Article |
| Year of Publication | 1995 |
| Authors | Liu, W, Wong, KC, Zeng, HC, Mitchell, KAR |
| Journal | Progress in Surface Science |
| Volume | 50 |
| Pagination | 247-257 |
| Date Published | Sep-Dec |
| Type of Article | Proceedings Paper |
| ISBN Number | 0079-6816 |
| Keywords | chemisorption, CU(110), ENERGY-ELECTRON-DIFFRACTION, INDUCED RECONSTRUCTIONS, LEED ANALYSIS, METAL-SURFACES, SCATTERING |
| Abstract | This article reviews structural details from tensor LEED analyses for three oxygen on copper surfaces, specifically those designated Cu(11O)-(2x1)-O, Cu(110)-c(6x2)-O and Cu(100)-(2 root 2x root 2)R45 degrees-O. Certain common features are identified and discussed. It appears that these particular structures receive some stability from being able to fit O-Cu-O building blocks, of the sort needed to construct bulk Cu2O, on to the Cu substrates. Each O atom maintains a four-coordinate status, while simultaneously allowing reasonable O-Cu bond lengths. Comparisons are made with other related systems, namely O at Ni and N at Cu surfaces. |
| URL | <Go to ISI>://A1995TL80800021 |
