采用密度泛函理论(DFT)的计算方法,研究了铂催化2-烯炔基苯甲醛水合环化反应的微观机理及化学选择性的根源.计算结果表明,首先炔基被催化活化而发生亲核环化生成吡喃铂中间体;接着吡喃铂中间体与烯烃双键发生[3+2]环加成生成铂-碳卡宾复合物;之后,反应将沿2条路径进行,得到产物3a或4a,其中4a的生成需经两步水分子辅助的质子转移过程.生成产物3a需要克服的活化能垒为146.5 k J/mol;对4a的生成,烯醇式和酮式互变异构是决速步聚,当一个水分子参与反应时,对应的能垒为185.8 k J/mol,当2个和3个水分子参与反应时,能垒分别降低到128.1和64.9 k J/mol.因此,水分子参与催化得到产物4a的路径是有利的.另外,反应的选择性与在异构化过程中水的共催化作用有关.以上结果很好地解释了实验现象,并为铂催化水环化反应提供新的见解.
The crystallite and thin film of (Zn,Hg)S at different solvents were prepared by thermolysis of thiocyanoto complexes. The samples were characterized by X ray diffraction (XRD), transmission electron microscopy (TEM) and scanning electron microscopy (SEM). The results of these studies show that the properties of solvents are important in controlling the sizes and shapes of the final products.