The effect of the composition ratio between arsenic and silicon atoms on the structures and properties of AsxSi6-x (x = 06) have been systematically investigated using the density functional theory at the B3LYP/6-311 G* level. The AsxSi6-x clusters prefer substitutional rather than attaching structures; the Si-rich clusters favor Si6-like structures, whereas the As-rich clusters prefer As6-like structures. The As atoms locating at the framework may explain the difficulty of removal of arsenic impurities from polycrystalline silicon. In general, the average binding energies gradually decrease, implying the AsxSi6-x clusters become increasingly unstable as x increases. Both the HOMO-LUMO gaps and the As-dissociation energies present a strong evenodd alternation, implying alternating chemical stability, with the even x members being more stable than the odd ones. The dissociation energies of an As atom from AsxSi6-x are: 3.07, 2.84, 1.84, 2.52, 1.86, and 2.85 eV, for x = 16, respectively, and 3.80, 3.08, 2.64, 3.01, 2.93, 3.16 eV for Si (x = 05). These dissociation energy results should provide a useful reference for further experimental investigations.

• 出版日期2012-3-5
• 单位华南师范大学