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作 者:耿彩云[1] 李吉来[1] 孙广领[2] 黄旭日[1] 孙家锺[1]
机构地区:[1]吉林大学理论化学研究所理论化学计算国家重点实验室,长春130023 [2]胜利工程设计咨询有限责任公司,东营257026
出 处:《高等学校化学学报》2006年第12期2372-2375,共4页Chemical Journal of Chinese Universities
基 金:国家自然科学基金(批准号:20103003);教育部骨干教师基金和吉林省杰出青年基金资助.
摘 要:用密度泛函理论(DFT)对金属Ir4cluster催化丙烯Propene加氢反应的反应机理进行了理论研究.在B3LYP理论水平下优化了反应通道上反应物、中间体、过渡态和产物各驻点物种的几何构型,构建了该反应的基态势能面.计算结果表明,Ir4cluster催化丙烯加氢反应,主要通过3条反应通道(c,d和e)进行.主反应通道c是H1原子先经过中间体1加成到丙烯的边端C上形成中间体3,然后H2原子经过渡态TS3—5,中间体5和过渡态TS5-P加成到中间C上生成产物P.c通道无论从动力学角度还是热力学角度都是最有利的;反应通道d和e中的最高势垒和通道c上的相比差别不大,具有一定的竞争性,是次通道.Using density functional theory( DFT), the reaction mechanism of propene hydrogenation catalyzed by metal Ir4 cluster were explored in detail theoretically. At B3LYP level, the geometries of stationary points (reactions, intermediates, transition states and product) were optimized and the ground state potential energy surface was ploted. The calculated results suggest that for the propene hydrogenation catalyzed by metal Ir4 cluster, the reaction may follow three reaction channels, which is c, d and e. In the major reaction channel c, the H-atom at Ir1 site first transforms to intermediate 1 after surmounting TSR-1, followed by the addition of Hatom to the side C of propene, leading to forming intermediate isomer 3. After that, the H-atom at Ir2 site can add to the middle C, passing through transition state TS3-5, intermediate 5 and transition state TS5-P respectively. Channel c is the most feasible reaction channel on the PES on both kinetic and thermodynamic considerations. As the highest transition states in channel d and e are a little higher than that of in channel c, they are less competitive and belong to minor channels.
关 键 词:密度泛函理论(DFT) 反应通道 Ir4 CLUSTER 丙烯
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