Miller Ericka Roy, Hoehn Sean J, Kumar Abhijith, Jiang Dehua, Parker Shane M
Department of Chemistry, Case Western Reserve University, 10900 Euclid Ave., Cleveland, Ohio 44106, USA.
J Chem Phys. 2024 Jul 21;161(3). doi: 10.1063/5.0203679.
We simulate the photodynamics of gas-phase cyclobutanone excited to the S2 state using fewest switches surface hopping (FSSH) dynamics powered by time-dependent density functional theory (TDDFT). We predict a total photoproduct yield of 8%, with a C3:C2 product ratio of 0 trajectories to 8 trajectories. One primary S2 → S1 conical intersection is identified involving the compression of an α-carbon-carbon-hydrogen bond angle. Excited state lifetimes computed with respect to electronic state populations were found to be 3.96 ps (S2 → S1) and 498 fs (S1 → S0). We also generate time-resolved difference pair distribution functions (ΔPDFs) from our TDDFT-FSSH dynamics results in order to generate direct comparisons with ultrafast electron diffraction experiment observables. Global and target analysis of time-resolved ΔPDFs produced a distinct set of lifetimes: (i) a 0.548 ps decay and (ii) a 1.69 ps decay, both resembling the S2 minimum, as well as (iii) a long decay that resembles the S1 minimum geometry and the fully separated C2 products. Finally, we contextualize our results by considering the impact of the most likely sources of significant errors.
我们使用由含时密度泛函理论(TDDFT)驱动的最少开关表面跳跃(FSSH)动力学,模拟了激发到S2态的气相环丁酮的光动力学。我们预测光产物的总产率为8%,C3:C2产物比为0条轨迹对8条轨迹。确定了一个主要的S2→S1锥形交叉点,涉及α-碳-碳-氢键角的压缩。根据电子态布居计算的激发态寿命为3.96皮秒(S2→S1)和498飞秒(S1→S0)。我们还根据TDDFT-FSSH动力学结果生成了时间分辨差分对分布函数(ΔPDFs),以便与超快电子衍射实验观测值进行直接比较。对时间分辨ΔPDFs的全局和目标分析产生了一组不同的寿命:(i)0.548皮秒的衰减和(ii)1.69皮秒的衰减,两者都类似于S2最小值,以及(iii)类似于S1最小几何形状和完全分离的C2产物的长衰减。最后,我们通过考虑最可能的重大误差来源的影响来阐述我们的结果。
