Theoretical Study on Mechanism of CO Oxidation Catalyzed by  Ag2-

Acta Chimica Sinica ›› 2009, Vol. 67 ›› Issue (16): 1859-1864. Previous Articles Next Articles

Original Articles

Ag₂-
唐典勇,a 胡建平a 张元勤a 胡常伟b

(a乐山师范学院化学与生命科学学院乐山 614000)
(b四川大学化学学院成都 610064)

`投稿日期:`2008-09-27 `修回日期:`2009-02-08 `发布日期:`2009-08-28

`通讯作者:` 唐典勇

Theoretical Study on Mechanism of CO Oxidation Catalyzed by Ag₂-

Tang, Dianyong ^,a Hu, Jianping ^a Zhang, Yuanqin ^a Hu, Changwei ^b

(^aCollege of Chemistry and Life Science, Leshan Teacher’s College, Leshan 614000)
(^b College of Chemistry, Sichuan University, Chengdu 610064)

`Received:`2008-09-27 `Revised:`2009-02-08 `Published:`2009-08-28

`Contact:` Tang, Dianyong

Abstract

The mechanism of -catalyzed CO oxidation was investigated at the level of B3LYP theory. The computational results indicate that the absorption energy of O2 on is close to that of O2 on , while the absorption of CO on is stronger than that of CO on . There are four reaction pathways for CO oxidation catalyzed by . The most feasible pathway is the CO insertion into the Ag—O bond of to produce an intermediate [Ag—AgC(O—O)O]－, and then the intermediate [Ag—AgC(O—O)O]－ decomposes into product CO2 and , or another CO molecule attacks [Ag—AgC(O—O)O]－ to form two CO2 molecules and anion. The most difficult pathway is the di-silver carbonate intermediate pathway, which needs to overcome a total energy barrier of about 0.24 eV. Since for gold, the carbonate-like intermediate pathway requires an activation barrier of 0.61 eV, silver proves to be a better catalyst than gold.

Key words: Ag cluster anion, CO oxidation, mechanism, density functional theory

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Theoretical Study on Mechanism of CO Oxidation Catalyzed by Ag₂-

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