Identification of the dominant photochemical pathways and mechanistic insights to the ultrafast ligand exchange of Fe(CO)5 to Fe(CO)4EtOH

K. Kunnus; I. Josefsson; I. Rajkovic; S. Schreck; W. Quevedo; M. Beye; C. Weniger; S. Grübel; M. Scholz; D. Nordlund; W. Zhang; R. W. Hartsock; K. J. Gaffney; W. F. Schlotter; J. J. Turner; B. Kennedy; F. Hennies; F. M. F. de Groot; S. Techert; M. Odelius; Ph. Wernet; A. F?hlisch

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Identification of the dominant photochemical pathways and mechanistic insights to the ultrafast ligand exchange of Fe(CO)5 to Fe(CO)4EtOH

机译：Fe（CO）5到Fe（CO）4EtOH超快配体交换的主要光化学途径和机理见解

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We utilized femtosecond time-resolved resonant inelastic X-ray scattering and ab initio theory to study the transient electronic structure and the photoinduced molecular dynamics of a model metal carbonyl photocatalyst Fe(CO)₅ in ethanol solution. We propose mechanistic explanation for the parallel ultrafast intra-molecular spin crossover and ligation of the Fe(CO)₄ which are observed following a charge transfer photoexcitation of Fe(CO)₅ as reported in our previous study [Wernet et al., Nature 520, 78 (2015)]. We find that branching of the reaction pathway likely happens in the 1A₁ state of Fe(CO)₄. A sub-picosecond time constant of the spin crossover from 1B₂ to 3B₂ is rationalized by the proposed 1B₂ → 1A₁ → 3B₂ mechanism. Ultrafast ligation of the 1B₂ Fe(CO)₄ state is significantly faster than the spin-forbidden and diffusion limited ligation process occurring from the 3B₂ Fe(CO)₄ ground state that has been observed in the previous studies. We propose that the ultrafast ligation occurs via 1B₂ → 1A₁ → 1A′ Fe(CO)₄EtOH pathway and the time scale of the 1A₁ Fe(CO)₄ state ligation is governed by the solute-solvent collision frequency. Our study emphasizes the importance of understanding the interaction of molecular excited states with the surrounding environment to explain the relaxation pathways of photoexcited metal carbonyls in solution.

机译：我们利用飞秒时间分辨共振非弹性X射线散射和从头算理论研究了模型金属羰基光催化剂Fe（CO）_{5 在乙醇溶液中的瞬态电子结构和光诱导分子动力学。我们为Fe（CO）_{5 的电荷转移光激发后观察到的平行超快分子内自旋交叉和Fe（CO）_{4 的连接提出了机理解释。如我们先前的研究报道[Wernet等人，Nature 520，78（2015）]。我们发现反应途径的分支可能发生在Fe（CO）_{4 的 1 A _{1 状态。从 1 B _{2 到 3 B _{2 的自旋交变的亚皮秒时间常数通过建议的 1 B _{2 → 1 A _{1 → 3 B _{2 机制。 1 B _{2 Fe（CO）_{4 状态的超快结扎速度显着快于自旋和受限制的自发扩散限制结扎过程先前研究中已观察到的 3 B _{2 Fe（CO）_{4 基态。我们建议超快速结扎是通过 1 B _{2 → 1 A _{1 → 1 A'Fe（CO）_{4 EtOH途径和 1 A _{1 Fe（CO）_{4 < / sub>状态的连接受溶质-溶剂碰撞频率的控制。我们的研究强调理解分子激发态与周围环境相互作用的重要性，以解释光激发金属羰基在溶液中的弛豫途径。}}}}}}}}}}}}}}}}}}}

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《Structural Dynamics》 |2016年第4期|共页
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K. Kunnus; I. Josefsson; I. Rajkovic; S. Schreck; W. Quevedo; M. Beye; C. Weniger; S. Grübel; M. Scholz; D. Nordlund; W. Zhang; R. W. Hartsock; K. J. Gaffney; W. F. Schlotter; J. J. Turner; B. Kennedy; F. Hennies; F. M. F. de Groot; S. Techert; M. Odelius; Ph. Wernet; A. F?hlisch;
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6. Identification of the dominant photochemical pathways and mechanistic insights to the ultrafast ligand exchange of Fe(CO)5 to Fe(CO)4EtOH [O] . K. Kunnus, I. Josefsson, I. Rajkovic, 2016

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7. Identification of the dominant photochemical pathways and mechanistic insights to the ultrafast ligand exchange of Fe(CO)5 to Fe(CO)4EtOH [O] . K. Kunnus, I. Josefsson, I. Rajkovic, 2016

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Identification of the dominant photochemical pathways and mechanistic insights to the ultrafast ligand exchange of Fe(CO)5 to Fe(CO)4EtOH

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