化学学报 ›› 2002, Vol. 60 ›› Issue (4): 653-659. 上一篇    下一篇

研究论文

苯在Si(111)-7*7表面化学吸附的理论研究

李艳茶;王文宁;曹勇;范康年   

  1. 复理大学化学系.上海(200433)
  • 发布日期:2002-04-15

Theoretical Study of the Chemisorption of Benzene on Si(111)-7 * 7 Surface

Li Yancha;Wang Wenning;Cao Yong;Fan kangnian   

  1. Department of Chemistry, Fudan University.Shanghai(200433)
  • Published:2002-04-15

采用两种大小不同的原子簇模型Si_(30)H_(28)和Si_(13)H_(16),分别用两层 ONIOM方法(对较大原子簇)和普通量子化学方法(对较小原子族)考察了苯分子 在Si(111)-7 * 7表面的化学吸附。对三种可能的吸附物种分别用DFT或HF方法进行 了计算。通过大小原子簇吸附物种的吸附能以及几何构型优化参数的比较发现,对 于稳定的吸附物种,较小的原子簇基本上可以代替较大的原子簇进行计算,而对于 不太稳定的吸附物种,就不得不考虑周边原子的影响。计算结果表明苯在Si(111)- 7 * 7表面的主要吸附种是双σ成键的1,4加成产物,不稳定的单吸附物种可能是 1,4加成物种的前驱态。

关键词: 吸附, 苯, 硅, 构型, 簇状化合物

A theoretical modelling approach using small and large silicon clusters respectively has been employed in the investigation of the chemisorption state of benzene on the Si(111)-7 * 7 surface. Three possible binding states were investigated at both HF and DFT levels as well as ONIOM (HF:AM1) and ONIOM (B3LYP:AM1) methods. 1,4 Di-σ state was found to be the energetically preferred state. The size effect of cluster has to be considered for the unstable mono-σ binding state. B3LYP method has much more accuracy than HF method in adsorption energy. Frequency calculation results, matching very well with the HREELS observations, further confirm the 1,4 binding state for benzene chemisorption. No transition state was found from mono-σ bonding state to 1,4-binding state by our theoretical calculation, so the adsorption mechanism of benzene on Si(111)-7 * 7 surface was proposed. It is that firstly benzene molecules are weakly trapped into a mono-σ bonding precursor state, which subsequently decay into a stable di-σ bonded chemisorbed state.

Key words: ADSORPTION, BENZENE, SILICON, CONFIGURATION, CLUSTER COMPOUND

中图分类号: