用飞秒价到芯X射线发射光谱法观测亚铁配合物的激发态电荷分布和键扩展。

Excited state charge distribution and bond expansion of ferrous complexes observed with femtosecond valence-to-core x-ray emission spectroscopy.

作者信息

Ledbetter Kathryn, Reinhard Marco E, Kunnus Kristjan, Gallo Alessandro, Britz Alexander, Biasin Elisa, Glownia James M, Nelson Silke, Van Driel Tim B, Weninger Clemens, Zederkof Diana B, Haldrup Kristoffer, Cordones Amy A, Gaffney Kelly J, Sokaras Dimosthenis, Alonso-Mori Roberto

机构信息

Department of Physics, Stanford University, Stanford, California 94305, USA.

Stanford PULSE Institute, SLAC National Accelerator Laboratory, Menlo Park, California 94025, USA.

出版信息

J Chem Phys. 2020 Feb 21;152(7):074203. doi: 10.1063/1.5139441.

DOI:10.1063/1.5139441

PMID:32087640

Abstract

Valence-to-core x-ray emission spectroscopy (VtC XES) combines the sample flexibility and element specificity of hard x-rays with the chemical environment sensitivity of valence spectroscopy. We extend this technique to study geometric and electronic structural changes induced by photoexcitation in the femtosecond time domain via laser-pump, x-ray probe experiments using an x-ray free electron laser. The results of time-resolved VtC XES on a series of ferrous complexes [Fe(CN)(2, 2'-bipyridine)], n = 1, 2, 3, are presented. Comparisons of spectra obtained from ground state density functional theory calculations reveal signatures of excited state bond length and oxidation state changes. An oxidation state change associated with a metal-to-ligand charge transfer state with a lifetime of less than 100 fs is observed, as well as bond length changes associated with metal-centered excited states with lifetimes of 13 ps and 250 ps.

摘要

价态到内层X射线发射光谱（VtC XES）将硬X射线的样品灵活性和元素特异性与价态光谱的化学环境敏感性相结合。我们通过使用X射线自由电子激光的激光泵浦、X射线探测实验，将该技术扩展到研究飞秒时域内光激发引起的几何和电子结构变化。本文展示了对一系列亚铁配合物[Fe(CN)(2, 2'-联吡啶)]（n = 1, 2, 3）进行时间分辨VtC XES的结果。从基态密度泛函理论计算得到的光谱比较揭示了激发态键长和氧化态变化的特征。观察到与寿命小于100 fs的金属到配体电荷转移态相关的氧化态变化，以及与寿命为13 ps和250 ps的以金属为中心的激发态相关的键长变化。

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用飞秒价到芯X射线发射光谱法观测亚铁配合物的激发态电荷分布和键扩展。

Excited state charge distribution and bond expansion of ferrous complexes observed with femtosecond valence-to-core x-ray emission spectroscopy.

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