铼羰基二亚胺配合物的激发态：溶剂化模型、自旋轨道耦合和振动采样效应。

Excited-states of a rhenium carbonyl diimine complex: solvation models, spin-orbit coupling, and vibrational sampling effects.

作者信息

Mai Sebastian, Gattuso Hugo, Fumanal Maria, Muñoz-Losa Aurora, Monari Antonio, Daniel Chantal, González Leticia

机构信息

Institute of Theoretical Chemistry, Faculty of Chemistry, University of Vienna, Währinger Straße 17, Vienna, 1090, Austria.

出版信息

Phys Chem Chem Phys. 2017 Oct 18;19(40):27240-27250. doi: 10.1039/c7cp05126c.

DOI:10.1039/c7cp05126c

PMID:28984331

Abstract

We present a quantum-chemical investigation of the excited states of the complex [Re(CO)(Im)(Phen)] (Im = imidazole; Phen = 1,10-phenanthroline) in solution including spin-orbit couplings and vibrational sampling. To this aim, we implemented electrostatic embedding quantum mechanics/molecular mechanics (QM/MM) in the Amsterdam Density Functional program suite, suitable for time-dependent density functional calculations including spin-orbit couplings. The new implementation is employed to simulate the absorption spectrum of the complex, which is compared to the results of implicit continuum solvation and frozen-density embedding. Molecular dynamics simulations are used to sample the ground state conformations in solution. The results demonstrate that any study of the excited states of [Re(CO)(Im)(Phen)] in solution and their dynamics should include extensive sampling of vibrational motion and spin-orbit couplings.

摘要

我们对配合物[Re(CO)(Im)(Phen)]（Im = 咪唑；Phen = 1,10 - 菲咯啉）在溶液中的激发态进行了量子化学研究，包括自旋 - 轨道耦合和振动采样。为此，我们在阿姆斯特丹密度泛函程序包中实现了静电嵌入量子力学/分子力学（QM/MM），适用于包括自旋 - 轨道耦合的含时密度泛函计算。新实现方法用于模拟该配合物的吸收光谱，并与隐式连续介质溶剂化和冻结密度嵌入的结果进行比较。分子动力学模拟用于对溶液中的基态构象进行采样。结果表明，对[Re(CO)(Im)(Phen)]在溶液中的激发态及其动力学的任何研究都应包括对振动运动和自旋 - 轨道耦合的广泛采样。

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铼羰基二亚胺配合物的激发态：溶剂化模型、自旋轨道耦合和振动采样效应。

Excited-states of a rhenium carbonyl diimine complex: solvation models, spin-orbit coupling, and vibrational sampling effects.

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