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含时密度泛函理论轨线表面跳跃分子动力学的功能和基组依赖性:顺式偶氮苯光异构化。

Functional and Basis Set Dependence for Time-Dependent Density Functional Theory Trajectory Surface Hopping Molecular Dynamics: Cis-Azobenzene Photoisomerization.

机构信息

Key Laboratory of Theoretical Chemistry of Environment, Ministry of Education, School of Chemistry and Environment of South China Normal University, Guangzhou, 51006, People's Republic of China.

Institute of Molecular Science and Department of Applied Chemistry, National Chiao Tung University, Hsinchu, 30010, Taiwan.

出版信息

J Comput Chem. 2020 Mar 15;41(7):635-645. doi: 10.1002/jcc.26116. Epub 2019 Nov 19.

DOI:10.1002/jcc.26116
PMID:31743473
Abstract

Within three functionals (TD-B3LYP, TD-BHandHLYP, and TD-CAM-B3LYP) in combination with four basis sets (3-21g, 6-31g, 6-31g(d), and cc-pvdz), global switching (GS) trajectory surface hopping molecular dynamics has been performed for cis-to-trans azobenzene photoisomerization up to the S (nπ*) excitation. Although all the combinations show artificial double-cone structure of conical intersection between ground and first excited states, simulated quantum yields and lifetimes are in good agreement with one another; 0.6 (±5%) and 40.5 fs (±10%) by TD-B3LYP, 0.5 (±10%) and 35.5 fs (±4%) by TD-BHandHLYP, and 0.44 (±9%) and 35.2 fs (±10%) by TD-CAM-B3LYP. By analyzing distributions of excited-state population decays, hopping spots, and typical trajectories with performance of 12 functional/basis set combinations, it has been concluded that functional dependence for given basis set is slightly more sensitive than basis set dependence for given functional. The present GS on-the-fly time-dependent density functional theory (TDDFT) trajectory surface hopping simulation can provide practical benchmark guidelines for conical intersection driven excited-state molecular dynamics simulation involving in large complex system within ordinary TDDFT framework. © 2019 Wiley Periodicals, Inc.

摘要

在三种泛函(TD-B3LYP、TD-BHandHLYP 和 TD-CAM-B3LYP)与四种基组(3-21g、6-31g、6-31g(d)和 cc-pvdz)的组合中,全局切换(GS)轨线表面跳跃分子动力学已用于顺式-反式偶氮苯光致异构化,直至 S(nπ*)激发。尽管所有组合都显示出基态和第一激发态之间的交叉锥形的人为双锥结构,但模拟量子产率和寿命彼此之间非常吻合;TD-B3LYP 为 0.6(±5%)和 40.5 fs(±10%),TD-BHandHLYP 为 0.5(±10%)和 35.5 fs(±4%),TD-CAM-B3LYP 为 0.44(±9%)和 35.2 fs(±10%)。通过分析激发态种群衰减、跳跃点和具有 12 种泛函/基组组合性能的典型轨迹的分布,得出结论:给定基组的泛函依赖性比给定泛函的基组依赖性略敏感。本研究中的 GS 实时密度泛函理论(TDDFT)轨线表面跳跃模拟可以为涉及大型复杂体系的锥形交叉驱动激发态分子动力学模拟提供实用的基准指南,而这在普通 TDDFT 框架内是难以实现的。© 2019 威利期刊公司

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