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含四氮杂大环配体及具有历史意义的开链配体的锰(III/IV)μ-氧二聚体和锰(III)单体

Manganese (III/IV) μ-Oxo Dimers and Manganese (III) Monomers with Tetraaza Macrocyclic Ligands and Historically Relevant Open-Chain Ligands.

作者信息

Johnston Hannah M, Freire David M, Mantsorov Christina, Jamison Nena, Green Kayla N

机构信息

Texas Christian University, Department of Chemistry and Biochemistry,2950 W. Bowie, Fort Worth, TX 76129, USA.

出版信息

Eur J Inorg Chem. 2022 Jul 8;2022(19). doi: 10.1002/ejic.202200039. Epub 2022 Apr 7.

DOI:10.1002/ejic.202200039
PMID:36277657
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9585891/
Abstract

The oxygen-evolving complex (OEC) located in photosystem II (PSII) of green plants is one of the best-known examples of a manganese-containing enzyme in nature, but it is also used in a range of other biological processes. OEC models incorporate two multi-dentate nitrogen-containing ligands coordinated to a bis-μ-oxo Mn(III,IV) core. Open-chain ligands were the initial scaffold used for biomimetic studies, but their macrocyclic counterparts have proven to be particularly appropriate due to their enhanced stability. Dimer and monomer complexes with such ligands have shown to be useful for a wide range of applications, which will be reviewed herein. The purpose of this review is to state with some clarity the different spectroscopic and structural characteristics of the Mn complexes formed with tetraaza macrocyclic ligands both in solution and solid-state that allow the reader to successfully identified the species involved when dealing with similar complexes of Mn.

摘要

位于绿色植物光系统II(PSII)中的析氧复合物(OEC)是自然界中最著名的含锰酶实例之一,但它也用于一系列其他生物过程。OEC模型包含两个与双μ-氧代Mn(III,IV)核心配位的多齿含氮配体。开链配体是用于仿生研究的初始支架,但由于其稳定性增强,其大环类似物已被证明特别合适。具有此类配体的二聚体和单体配合物已显示可用于广泛的应用,本文将对此进行综述。本综述的目的是清晰地阐述在溶液和固态中与四氮杂大环配体形成的锰配合物的不同光谱和结构特征,使读者在处理类似的锰配合物时能够成功识别所涉及的物种。

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Hydrogen Peroxide Disproportionation with Manganese Macrocyclic Complexes of Cyclen and Pyclen.过氧化氢与环轮烯和吡啶环轮烯的锰大环配合物的歧化反应
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