激发态1,2-二硫环丁烯去活性和异构化机理的理论研究  被引量:2

Theoretical study of deactivation and isomerization pathways of 1,2-dithiete in excited electronic states

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作  者:吕玲玲[1] 杨声[1] 王小芳[1] 袁琨[1] 刘新文[1] 王永成[2] 

机构地区:[1]天水师范学院生命科学与化学学院,天水741001 [2]西北师范大学化学化工学院,兰州730070

出  处:《中国科学(B辑)》2009年第7期646-656,共11页Science in China(Series B)

基  金:天水师范学院"青蓝"工程项目资助

摘  要:运用完全活性空间多组态CASSCF方法研究了激发态1,2-二硫环丁烯(1,2-Dithiete)势能面交叉机理.自旋-轨道耦合(SOC)常数采用完全Pauli-Breit旋轨耦合算符(包括单电子和双电子项)进行计算,其强度为198.37或211.35cm-1,对不同自旋态跃迁起着重要作用.研究结果表明:光激发1,3-dithiol-2-one导致形成主要产物trans-dithioglyoxal(Trans-MinS0)和次级产物thiolthioketene.计算与实验观察结果一致.The potential energy surface crossings for 1,2-dithiete have been investigated using the complete active space self-consistent field (CASSCF) method. Using the full Pauli-Breit spin-orbit coupling (SOC) operator (HSO), that consists of the one-electron (HSO1) and two-electron (HSO2) terms, we estimated the strengths of the SOC (198.37 when symmetry is imposed, and 211.35 cm^-1 with no symmetry constraints), which plays an essential role in the spin transitions between different spin states. The calculations showed that the photolysis of 1,3-dithiol-2-one leads to the formation of trans-dithioglyoxal (Trans-MinSo) as a primary product which subsequently gives a secondary product identified as thiolthioketene. Our calculated results are in good agreement with experimental observations.

关 键 词:1 2-二硫环丁烯 势能面交叉 自旋-轨道耦合 

分 类 号:O621.1[理学—有机化学]

 

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