Modeling Spin-Crossover Dynamics.

IF 11.7 1区化学 Q1 CHEMISTRY, PHYSICAL Annual review of physical chemistry Pub Date : 2021-04-20 Epub Date: 2021-02-09 DOI:10.1146/annurev-physchem-101419-012625

Saikat Mukherjee, Dmitry A Fedorov, Sergey A Varganov

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引用次数: 15

Abstract

In this article, we review nonadiabatic molecular dynamics (NAMD) methods for modeling spin-crossover transitions. First, we discuss different representations of electronic states employed in the grid-based and direct NAMD simulations. The nature of interstate couplings in different representations is highlighted, with the main focus on nonadiabatic and spin-orbit couplings. Second, we describe three NAMD methods that have been used to simulate spin-crossover dynamics, including trajectory surface hopping, ab initio multiple spawning, and multiconfiguration time-dependent Hartree. Some aspects of employing different electronic structure methods to obtain information about potential energy surfaces and interstate couplings for NAMD simulations are also discussed. Third, representative applications of NAMD to spin crossovers in molecular systems of different sizes and complexities are highlighted. Finally, we pose several fundamental questions related to spin-dependent processes. These questions should be possible to address with future methodological developments in NAMD.

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自旋交叉动力学建模。

在本文中，我们回顾了非绝热分子动力学(NAMD)方法来模拟自旋交叉跃迁。首先，我们讨论了在基于网格和直接NAMD模拟中使用的电子状态的不同表示。强调了不同表示形式的州际耦合的性质，主要关注非绝热和自旋轨道耦合。其次，我们描述了三种用于模拟自旋交叉动力学的NAMD方法，包括轨迹表面跳变、从头算多重产卵和多配置时间依赖Hartree。本文还讨论了采用不同电子结构方法获取势能面和州际耦合信息的一些方面。第三，重点介绍了NAMD在不同大小和复杂程度的分子体系中自旋交叉的代表性应用。最后，我们提出了几个有关自旋相关过程的基本问题。这些问题应该有可能在未来的NAMD方法发展中得到解决。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Annual review of physical chemistry 化学-物理化学

CiteScore

28.00

自引率

0.00%

发文量

期刊介绍： The Annual Review of Physical Chemistry has been published since 1950 and is a comprehensive resource for significant advancements in the field. It encompasses various sub-disciplines such as biophysical chemistry, chemical kinetics, colloids, electrochemistry, geochemistry and cosmochemistry, chemistry of the atmosphere and climate, laser chemistry and ultrafast processes, the liquid state, magnetic resonance, physical organic chemistry, polymers and macromolecules, and others.

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