配位诱导的自旋态转变改变了卟啉镍 (II) 在氢气进化反应中的反应活性。

IF 16.1 1区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY
Hao-Zong Xue, Jia-Hui Wu, Jun-Long Zhang, Bing-Wu Wang, Song Gao
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引用次数: 0

摘要

电子自旋在化学过程中起着至关重要的作用,尤其是在涉及具有未成对电子的金属复合物的反应中。然而,要更好地阐明电子自旋的作用,还需要进行更明确的态对态实验。在此,我们选择镍(II)5,10,15,20-四(五氟苯基)卟啉 1 作为催化剂,通过吡啶的轴向配位,使镍(II)中心从低自旋状态切换到高自旋状态,从而进行电催化氢进化反应(HER)。当吡啶存在时,我们观察到卟啉通过电子转移进行β-氢化,然后进行质子转移。相反,在没有吡啶配位的情况下,氢演化主要通过协同质子偶联电子转移发生。在 CoCp2 化学还原 1 并随后加入对甲苯磺酸吡啶鎓的过程中,也观察到了类似的明显的自旋选择性。利用密度泛函理论进行的计算表明,从低自旋态到高自旋态的转变丰富了单电子还原后配体的电子密度,从而导致β外围而不是中间位置或金属中心优先质子化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Coordination Induced Spin State Transition Switches the Reactivity of Nickel (II) Porphyrin in Hydrogen Evolution Reaction.

Electron spin plays a critical role in chemical processes, particularly in reactions involving metal complexes with unpaired electrons. However, more definitive state-to-state experiments are needed to better elucidate the role of electronic spin. Herein, we chose nickel (II) 5,10,15,20-tetrakis(pentafluorophenyl) porphyrin 1 as a catalyst, which allows switching from a low spin to a high spin state of Ni(II) center through an axial pyridine coordination, for electrocatalytic hydrogen evolution reaction (HER). When pyridine is present, we observed β-hydrogenation of porphyrin through electron transfer followed by proton transfer. In contrast, hydrogen evolution mainly occurs via the concerted proton-coupling electron transfer without pyridine coordination. Similar distinct spin-dependent selectivity was also observed in chemical reduction of 1 by CoCp2 with subsequent addition of pyridinium p-toluenesulfonate. Computational calculations using density functional theory demonstrated that the transition from low spin to high spin state enriches the ligand's electron density after one-electron reduction, leading to preferential protonation of β-periphery rather than meso-position or metal center.

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来源期刊
CiteScore
26.60
自引率
6.60%
发文量
3549
审稿时长
1.5 months
期刊介绍: Angewandte Chemie, a journal of the German Chemical Society (GDCh), maintains a leading position among scholarly journals in general chemistry with an impressive Impact Factor of 16.6 (2022 Journal Citation Reports, Clarivate, 2023). Published weekly in a reader-friendly format, it features new articles almost every day. Established in 1887, Angewandte Chemie is a prominent chemistry journal, offering a dynamic blend of Review-type articles, Highlights, Communications, and Research Articles on a weekly basis, making it unique in the field.
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