摘要
应用 UBI-QEP方法估算了金属表面上形成的活化吸附态 CO- 2 在 Cu(1 1 1 ) ,Pd(1 1 1 ) ,Fe(1 1 1 )和Ni(1 1 1 )表面上的吸附热 ,计算了各种相关反应的活化能垒 .结果表明 ,CO- 2 在 4种过渡金属表面的相对稳定性的顺序为 Fe>Ni>Cu>Pd;在 Fe和 Ni表面上 CO- 2 较易生成 ,且容易进一步发生解离反应 ,在 Fe表面会解离成 C和 O吸附原子 ,而在 Ni表面上解离的最终产物为 CO和 O;在 Cu表面上 ,CO- 2 虽较难形成 ,但其加氢反应的活化能比解离反应低 ,因此加氢反应是其进一步活化的有效模式 ;在 Pd表面上 ,CO- 2 吸附态在能量上很不稳定 ,所以 CO2 在
The conversion and utilization of CO 2 are not only an important research subject in C 1 chemistry, but also of great significance in pollution control. It is generally accepted that CO - 2 adspecies on metal surfaces as an activated adsorption state of CO 2 is a pivotal intermediate in the process of CO 2 activation. The adsorption energy of CO - 2 and the energy barrier of various pathways of CO 2 activation on Cu(111), Pd(111), Fe(111) and Ni(111) surfaces have been predicted by using the UBI QEP(Unity bond index quadratic exponential potential) method. The theoretical results show that the stability of CO - 2 adsorbed on the above four transition metal surfaces follows the order: Fe(111)>Ni(111)>Cu(111)>Pd(111). CO - 2 surface species can be readily formed on the Fe and Ni surfaces and is liable to dissociate, giving rise to \{C(a)\} and O(a) on the Fe surface and CO(a) and O(a) on the Ni surface, respectively. On the Cu surface, though the formation of CO - 2 is less favorable, the hydrogenation of the as formed CO - 2 would be favorable over its direct dissociation which can lead to CO and O adspecies. On the Pd surface, the activation of CO 2 is rather difficult, as the formation of CO - 2 adspecies is thermodynamically quite unfavorable from the view point of activation enthalpies.
出处
《高等学校化学学报》
SCIE
EI
CAS
CSCD
北大核心
2002年第8期1570-1573,共4页
Chemical Journal of Chinese Universities
基金
国家自然科学基金 (批准号 :2 0 973 0 3 1)
国家重点基础研究发展规划 (批准号 :G19990 2 2 40 8)资助