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Effects of Lewis Acidic Metal Ions (M) on Oxygen-Atom Transfer Reactivity of Heterometallic Mn3MO4 Cubane and Fe3MO(OH) and Mn3MO(OH) Clusters

机译：路易斯酸性金属离子（M）对Mn3MO4古巴古铜和Fe3MO（OH）和Mn3MO（OH）团簇的氧原子转移反应性的影响

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The modulation of the reactivity of metal oxo species by redox inactive metals has attracted much interest due to the observation of redox inactive metal effects on processes involving electron transfer both in nature (the oxygen evolving complex of Photosystem II) and in heterogeneous catalysis (mixed-metal oxides). Studies of small molecule models of these systems have revealed numerous instances of effects of redox inactive metals on electron and group transfer reactivity. However, the heterometallic species directly involved in these transformations have rarely been structurally characterized and are often generated in situ. We have previously reported the preparation and structural characterization of multiple series of heterometallic clusters based on Mn3 and Fe3 cores and described the effects of Lewis acidity of the heterometal incorporated in these complexes on cluster reduction potential. To determine the effects of Lewis acidity of redox inactive metals on group transfer reactivity in structurally well-defined complexes, we studied [Mn3MO4], [Mn3MO(OH)], and [Fe3MO(OH)] clusters in oxygen atom transfer (OAT) reactions with phosphine substrates. The qualitative rate of OAT correlates with the Lewis acidity of the redox inactive metal, confirming that Lewis acidic metal centers can affect the chemical reactivity of metal oxo species by modulating cluster electronics.

机译：氧化还原惰性金属对金属氧化羰基物种反应性的调节引起了极大的兴趣，因为观察到氧化还原惰性金属对自然界（光系统II的氧演化络合物）和非均相催化（混合-金属氧化物）。对这些系统的小分子模型的研究揭示了氧化还原惰性金属对电子和基团转移反应性的影响的许多实例。但是，直接参与这些转变的杂金属物种很少具有结构特征，并且经常在原位生成。我们先前已经报道了基于Mn3和Fe3核的多系列杂金属簇的制备和结构表征，并描述了掺入这些配合物中的杂金属的路易斯酸度对簇还原电位的影响。为了确定氧化还原惰性金属的路易斯酸度对结构明确的络合物中基团转移反应性的影响，我们研究了氧原子转移（OAT）中的[Mn3MO4]，[Mn3MO（OH）]和[Fe3MO（OH）]团簇与膦底物的反应。 OAT的定性速率与氧化还原惰性金属的路易斯酸度相关，这证明路易斯酸性金属中心可以通过调节簇电子结构来影响金属含氧物种的化学反应性。

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Davide Lionetti; Sandy Suseno; Emily Y. Tsui; Luo Lu; Troy A. Stich; Kurtis M. Carsch; Robert J. Nielsen; William A. Goddard III; R. David Britt; Theodor Agapie;
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年(卷),期 -1(58),4
年度 -1
页码 2336–2345
总页数 25
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1. Effects of Lewis Acidic Metal Ions (M) on Oxygen-Atom Transfer Reactivity of Heterometallic Mn3MO4 Cubane and Fe3MO(OH) and Mn3MO(OH) Clusters [J] . Lionetti Davide, Suseno Sandy, Tsui Emily Y., Inorganic Chemistry: A Research Journal that Includes Bioinorganic, Catalytic, Organometallic, Solid-State, and Synthetic Chemistry and Reaction Dynamics . 2019,第4期

机译：路易斯酸性金属离子（M）对杂核MN3MO4核心和Fe3MO（OH）和Mn3MO（OH）簇氧 - 原子转移反应性的影响
2. Transformation of the incomplete cubane-type Ir3S(SH)(3) cluster into single-cubane (Ir3SbS4), corner-shared double-cubane (Ir6BiSO8) and cuboidal (Ir3PdS3(SH)) heterometallic clusters [J] . Shinozaki A., Seino H., Hidai M., Organometallics . 2003,第23期

机译：将不完全的古巴型Ir3S（SH）（3）簇转化为单古巴（Ir3SbS4），角共享双古巴（Ir6BiSO8）和立方形（Ir3PdS3（SH））杂金属簇
3. Cubane-type heterometallic sulfido clusters: Incorporation of two metal fragments into a dinuclear ReS(mu-S)(2)ReS core affording bimetallic M2Re2(mu(3)-S)(4) clusters (M = Ru, Pt, Cu) or trimetallic MM ' Re-2(mu(3)-S)(4) clusters via incomplete cuba [J] . Seino H., Kaneko T., Fujii S., Inorganic Chemistry: A Research Journal that Includes Bioinorganic, Catalytic, Organometallic, Solid-State, and Synthetic Chemistry and Reaction Dynamics . 2003,第15期

机译：古巴型杂金属硫化物簇：将两个金属片段结合到双核ReS（mu-S）（2）ReS核中，提供双金属M2Re2（mu（3）-S）（4）簇（M = Ru，Pt，Cu）或三金属MM'Re-2（mu（3）-S）（4）簇通过不完整的古巴
4. Synthesis of a Heterometallic Sulfide Cluster with an Incomplete Double Cubane Framework without Intramolecular Inversion Center as a Structural Model for an Active Site of Nitrogenases [C] . Bunsho Kure, Daisuke Inoki, Seiji Ogo, Symposium on Organometallic Chemistry . 2004

机译：用不完全的双副Cubane框架合成没有分子内倒置中心的不完全双级套管群作为氮酶活性部位的结构模型
5. Mechanisms of electron transfer and hydrogen activation in selected triruthenium clusters with multiple bridging ligands. Part I. The attenuation of radical reactivity in triruthenium trihydrido(alkylidyne) clusters. Electrochemistry and kinetics of decomposition of the 47-electron cluster radical, via a disproportionation path. Part II. The activation of molecular hydrogen at transition metal centers via kinetics and mechanism of reversible oxidative addition of hydrogen across the metal-metal bond of (mu-hydrogen)(2)Ruthenium(3)(Carbon monoxide)(8)(mu-phosphorus(t-BU)(2))(2). [D] . Bierdeman, David John. 2000

机译：具有多个桥联配体的选定三钌簇中电子转移和氢活化的机理。第一部分。三氢三钌（亚烷基）簇中自由基反应性的减弱。通过歧化路径分解47电子簇自由基的电化学和动力学。第二部分通过（mu-hydrogen）（2）钌（3）（一氧化碳）（8）（mu-phosphorus（）的金属-金属键上氢的可逆氧化加成反应的动力学和机理激活过渡金属中心的分子氢t-BU）（2））（2）。
6. Hydrolysis of Element (White) Phosphorus under the Action of Heterometallic Cubane-Type Cluster {Mo [O] . Airat M. Kuchkaev, Nikita Y. Shmelev, Aidar M. Kuchkaev, 2021

机译：杂核亚型 - 型簇{MO的作用下元素（白色）磷的水解
7. Effects of Lewis Acidic Metal Ions (M) on Oxygen-Atom Transfer Reactivity of Heterometallic Mn3MO4 Cubane and Fe3MO(OH) and Mn3MO(OH) Clusters [O] . Davide Lionetti, Sandy Suseno, Emily Y. Tsui, 2019

机译：路易斯酸性金属离子（M）对杂核MN3MO4核心和Fe3MO（OH）和Mn3MO（OH）簇氧 - 原子转移反应性的影响
8. Strong reactions of Lewis-base noble-metals with vanadium and other acidic transition metals [R] . Ebbinghaus, B. B. 1991

机译：路易斯碱贵金属与钒和其他酸性过渡金属的强烈反应

Effects of Lewis Acidic Metal Ions (M) on Oxygen-Atom Transfer Reactivity of Heterometallic Mn3MO4 Cubane and Fe3MO(OH) and Mn3MO(OH) Clusters

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