| 摘要: |
The nonadiabatic dynamics of keto isocytosine in the gas phase has been investigated using the on-the-fly trajectory surface hopping method based on two electronic-structure methods: SA-CASSCF and ADC(2). The resuLts estimate an excited-state Lifetime of around 1000 fs at the SA-CASSCF level, while a much shorter Lifetime of 250-350 fs is obtained at the ADC(2) level. Although three conical intersections (Cis) (Ethyl. 1, Ethyl. 11 and C=0 stretching) are relevant to the nonadiabatic decay of keto isocytosine, their contributions to the nonadiabatic decay are highly dependent on the electronic structure methods employed in the dynamics simulation. The Ethyl. 11 CI is the main channel in the dynamics simulations at the SA-CASSCF level, while the C=0 stretching CI becomes dominant at the ADC(2) Levels. Other high-level electronic-structure methods (MR-CISD and MS-CASPT2) are involved to benchmark our dynamics resuLts. Through the analysis of the reaction pathways from the ground state minimum to the relevant Cls, we expect that the excited-state dynamical features obtained at the MR-CISD and MS-CASPT2 levels should be very similar to those at the SA-CASSCF level. The comparison of resuLts obtained using different excited-state electronic-structure methods could provide guidance for further studies of similar systems. |
