化学学报 ›› 2005, Vol. 63 ›› Issue (10): 903-908. 上一篇    下一篇

研究论文

载铜活性炭吸附一氧化碳的密度泛函理论计算

黎军,马正飞*,刘晓勤,姚虎卿   

  1. (南京工业大学化学化工学院江苏省材料化学工程重点实验室 南京 210009)
  • 投稿日期:2004-03-25 修回日期:2005-01-20 发布日期:2010-12-10
  • 通讯作者: 马正飞

Density Functional Theory Calculations of Carbon Monoxide Adsorption on Activated Carbon Loaded with Cuprous Salt

LI Jun, MA Zheng-Fei*, LIU Xiao-Qin, YAO Hu-Qing   

  1. (College of Chemistry and Chemical Engineering, Nanjing University of Technology, Key Laboratory of Material-oriented Chemical Engineering of Jiangsu Province, Nanjing 210009)
  • Received:2004-03-25 Revised:2005-01-20 Published:2010-12-10
  • Contact: MA Zheng-Fei

应用密度泛函理论和相对论有效核势方法, 用C16H10, C13H9, C12H12原子簇模型模拟活性炭表面, 计算得到了CO在载铜活性炭上的吸附位、吸附构型和吸附能. 研究表明: 载铜活性炭吸附CO的过程, 本质上是Cu(I)通过σ-π配键与CO络合, 形成Cu—C键的过程. 载铜活性炭对CO的络合吸附能在50~60 kJ/mol之间, 远大于活性炭对CO的物理吸附能(9.15 kJ/mol), 因而络合吸附更稳定, 选择性也更高. Cu(I)选择吸附在活性炭表面的顶位和桥位, 一个Cu(I)至多可以吸附一个到两个CO分子, 但吸附一个CO比吸附两个CO稳定.

关键词: 一氧化碳, 活性炭, 一价铜, 络合吸附, 密度泛函理论

In the paper, the density functional theory and the cluster model approach have been applied to study complex adsorption of carbon monoxide on activated carbon loaded with cuprous salt. The adsorption sites of bridge, top and hole on activated carbon have been modeled by C16H10, C13H9 and C12H12 clusters. The results show that adsorption of carbon monoxide on activated carbon loaded with Cu(I) is due to the interaction of π-complexation between Cu(I) and carbon monoxide. Cu(I) is stabilized strongly at the bridge site and top site of the cluster surfaces. One Cu(I) can adsorb one or two carbon monoxide molecules, with adsorption energy from 50 to 60 kJ/mol, which is much greater than the physical adsorption energy (9.15 kJ/mol) of carbon monoxide on activated carbon. Such energies are both in agreement with available experimental data. DFT is validated as a reliable approach to explain the adsorption of carbon monoxide on activated carbon loaded with Cu(I), which supplies a theoretical basis for the further studies on activated carbon loaded with cuprous salt.

Key words: carbon monoxide, activated carbon, cuprous salt, complex adsorption, density functional theory