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J Am Chem Soc. 2019 Sep 25;141(38):15046-15057. doi: 10.1021/jacs.9b04729. Epub 2019 Sep 13.
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Mechanistic Insight into Dioxygen Evolution from Diastereomeric μ-Peroxo Dinuclear Co(III) Complexes Based on Stoichiometric Electron-Transfer Oxidation.基于计量电子转移氧化的非对映 μ-过氧双核 Co(III)配合物中氧气析出的机理见解。
Inorg Chem. 2019 Mar 18;58(6):3676-3682. doi: 10.1021/acs.inorgchem.8b03245. Epub 2019 Feb 27.
3
Oxygen-Oxygen Bond Cleavage and Formation in Co(II)-Mediated Stoichiometric O Reduction via the Potential Intermediacy of a Co(IV) Oxyl Radical.通过Co(IV)氧基自由基的潜在中间体,Co(II)介导的化学计量O还原中氧-氧键的断裂与形成
J Am Chem Soc. 2018 Nov 28;140(47):16094-16105. doi: 10.1021/jacs.8b07726. Epub 2018 Nov 15.
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A five-coordinate Mn(iv) intermediate in biological water oxidation: spectroscopic signature and a pivot mechanism for water binding.生物水氧化过程中的五配位锰(IV)中间体:光谱特征及水结合的枢轴机制
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The O-Evolving Complex of Photosystem II: Recent Insights from Quantum Mechanics/Molecular Mechanics (QM/MM), Extended X-ray Absorption Fine Structure (EXAFS), and Femtosecond X-ray Crystallography Data.光系统 II 的 O 演变复合体:来自量子力学/分子力学 (QM/MM)、扩展 X 射线吸收精细结构 (EXAFS) 和飞秒 X 射线晶体学数据的最新见解。
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X-ray Absorption and Emission Study of Dioxygen Activation by a Small-Molecule Manganese Complex.小分子锰配合物对双氧激活作用的X射线吸收与发射研究
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具有晶体化学特征的硫醇配体桥联双核过氧合钴(III)配合物的几何和电子结构。

Geometric and electronic structure of a crystallographically characterized thiolate-ligated binuclear peroxo-bridged cobalt(III) complex.

机构信息

The Department of Chemistry, University of Washington, Box 351700, Seattle, WA, 98195-1700, USA.

出版信息

J Biol Inorg Chem. 2019 Sep;24(6):919-926. doi: 10.1007/s00775-019-01686-x. Epub 2019 Jul 24.

DOI:10.1007/s00775-019-01686-x
PMID:31342141
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6948190/
Abstract

In order to shed light on metal-dependent mechanisms for O-O bond cleavage, and its microscopic reverse, we compare herein the electronic and geometric structures of O-derived binuclear Co(III)- and Mn(III)-peroxo compounds. Binuclear metal peroxo complexes are proposed to form as intermediates during Mn-promoted photosynthetic HO oxidation, and a Co-containing artificial leaf inspired by nature's photosynthetic HO oxidation catalyst. Crystallographic characterization of an extremely activated peroxo is made possible by working with substitution-inert, low-spin Co(III). Density functional theory (DFT) calculations show that the frontier orbitals of the Co(III)-peroxo compound differ noticeably from the analogous Mn(III)-peroxo compound. The highest occupied molecular orbital (HOMO) associated with the Co(III)-peroxo is more localized on the peroxo in an antibonding π*(O-O) orbital, whereas the HOMO of the structurally analogous Mn(III)-peroxo is delocalized over both the metal d-orbitals and peroxo π*(O-O) orbital. With low-spin d Co(III), filled t orbitals prevent π-back-donation from the doubly occupied antibonding π*(O-O) orbital onto the metal ion. This is not the case with high-spin d Mn(III), since these orbitals are half-filled. This weakens the peroxo O-O bond of the former relative to the latter.

摘要

为了阐明金属依赖性的 O-O 键断裂机制及其微观逆反应,我们在此比较了源于 O 的双核 Co(III)和 Mn(III)过氧化合物的电子和几何结构。双核金属过氧配合物被认为是在 Mn 促进的光合作用 HO 氧化过程中形成的中间体,以及受自然界光合作用 HO 氧化催化剂启发的含 Co 的人工叶。通过使用取代惰性、低自旋 Co(III),可以对极其活跃的过氧进行晶体化学表征。密度泛函理论 (DFT) 计算表明,Co(III)-过氧化合物的前线轨道与类似的 Mn(III)-过氧化合物明显不同。与 Co(III)-过氧相关的最高占据分子轨道 (HOMO) 更局域在反键 π*(O-O)轨道上的过氧中,而结构类似的 Mn(III)-过氧的 HOMO 则分布在金属 d 轨道和过氧 π*(O-O)轨道上。对于低自旋 d Co(III),填满的 t 轨道阻止了从双键占据的反键 π*(O-O)轨道向金属离子的 π 反馈。对于高自旋 d Mn(III),情况并非如此,因为这些轨道是半满的。这削弱了前者相对于后者的过氧 O-O 键。