Chen Xue-Bo, Fang Wei-Hai
Department of Chemistry, Beijing Normal University, Beijing 100875, PR China.
J Am Chem Soc. 2004 Jul 28;126(29):8976-80. doi: 10.1021/ja0494858.
In the present study, the five lowest electronic states that control the UV photodissociation of formanilide and benzamide have been characterized using the complete active space self-consistent field theory. The mechanisms for the initial relaxation and subsequent dissociation processes have been determined on the basis of the calculated potential energy surfaces and their intersections. It was found that the S(1)/T(1)/T(2) three-surface intersection plays an important role in the photodissociation processes of benzamide. However, the dissociation behavior of formanilide and benzamide was found to be quite different from that for aliphatic amides. The present study provides several insights into the photodissociation dynamics of formanilide and benzamide.
在本研究中,利用完全活性空间自洽场理论对控制甲酰苯胺和苯甲酰胺紫外光解离的五个最低电子态进行了表征。基于计算得到的势能面及其交点,确定了初始弛豫和随后解离过程的机制。研究发现,S(1)/T(1)/T(2)三表面交点在苯甲酰胺的光解离过程中起重要作用。然而,发现甲酰苯胺和苯甲酰胺的解离行为与脂肪族酰胺的解离行为有很大不同。本研究为甲酰苯胺和苯甲酰胺的光解离动力学提供了一些见解。