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Predicting Phosphorescence Rates of Light OrganicMolecules Using Time-Dependent Density Functional Theory and the PathIntegral Approach to Dynamics

机译：预测轻有机物的磷光速率使用时变密度泛函理论的分子及其路径整体动力学方法

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In this work, we present a general method for predicting phosphorescence rates and spectra for molecules using time-dependent density functional theory (TD-DFT) and a path integral approach for the dynamics that relies on the harmonic oscillator approximation for the nuclear movement. We first discuss the theory involved in including spin–orbit coupling (SOC) among singlet and triplet excited states and then how to compute the corrected transition dipole moments and phosphorescence rates. We investigate the dependence of these rates on some TD-DFT parameters, such as the nature of the functional, the number of roots, and the Tamm–Dancoff approximation. After that, we evaluate the effect of different SOC integral schemes and show that our best method is applicable to a large number of systems with different excited state characters.

机译：在这项工作中，我们提出了一种使用时变密度泛函理论（TD-DFT）来预测分子的磷光速率和光谱的通用方法，以及一种依赖于谐振子对核运动近似的动力学路径积分方法。我们首先讨论涉及在单重态和三重态激发态之间包括自旋-轨道耦合（SOC）的理论，然后讨论如何计算校正的跃迁偶极矩和磷光率。我们研究了这些速率对某些TD-DFT参数的依赖性，例如功能的性质，根数以及Tamm-Dancoff近似。之后，我们评估了不同SOC积分方案的效果，并表明我们的最佳方法适用于具有不同激发态特性的大量系统。

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期刊名称 ACS AuthorChoice
作者
Bernardo de Souza; Giliandro Farias; Frank Neese; Róbert Izsák; *;
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年(卷),期 -1(15),3
年度 -1
页码 1896–1904
总页数 9
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1. Predicting Phosphorescence Rates of Light Organic Molecules Using Time-Dependent Density Functional Theory and the Path Integral Approach to Dynamics [J] . de Souza Bernardo, Farias Giliandro, Neese Frank, Journal of chemical theory and computation: JCTC . 2019,第3期

机译：使用时间依赖性密度泛函理论预测光有机分子的磷光率和动态的路径整合方法
2. Phosphorescence lifetimes of organic light-emitting diodes from two-component time-dependent density functional theory [J] . Kuehn Michael, Weigend Florian The Journal of Chemical Physics . 2014,第22aPta1期

机译：基于两组分时间相关密度泛函理论的有机发光二极管的磷光寿命
3. Phosphorescence energies of organic light-emitting diodes from spin-flip Tamm-Dancoff approximation time-dependent density functional theory [J] . Kühn M., Weigend F. Chemphyschem: A European journal of chemical physics and physical chemistry . 2011,第17期

机译：自旋翻转Tamm-Dancoff近似时变密度泛函理论的有机发光二极管的磷光能
4. Electron Dynamics Simulation with Time-Dependent Density Functional Theory on Large Scale Symmetric Mode Xeon Phi Cluster [C] . Yuta Hirokawa, Taisuke Boku, Shunsuke A. Sato, IEEE International Parallel and Distributed Processing Symposium Workshops and PhD Forum . 2016

机译：大规模对称模式Xeon Phi团簇上基于时变密度泛函理论的电子动力学模拟
5. Tuned density functional theory applied in time-dependent density functional theory calculations of optical and chiroptical properties. [D] . Moore, Barry E., II. 2016

机译：调整后的密度泛函理论应用于随时间变化的光学和按摩特性的密度泛函理论计算。
6. Kohn–Sham approach to quantum electrodynamical density-functional theory: Exact time-dependent effective potentials in real space [O] . Johannes Flick, Michael Ruggenthaler, Heiko Appel, 2015

机译：量子电动力学密度泛函理论的Kohn-Sham方法：真实空间中与时间有关的精确有效电位
7. Predicting Phosphorescence Rates of Light Organic Molecules Using Time-Dependent Density Functional Theory and the Path Integral Approach to Dynamics [O] . Bernardo de Souza, Giliandro Farias, Frank Neese, 2019

机译：用时间依赖性密度泛函理论预测光有机分子的磷光率和动态的路径整合方法

Predicting Phosphorescence Rates of Light OrganicMolecules Using Time-Dependent Density Functional Theory and the PathIntegral Approach to Dynamics

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