Hidde A. Negenman scite author profile

Ligands that can adapt their coordination mode to the electronic properties of a metal center are of interest to support catalysis or small molecule activation processes. In this context, the ability of imine moieties to bind in either an η1(N)-fashion via σ-donation of the lone pair or, less commonly, in an η2(C,N)-fashion via π-coordination is potentially attractive for the design of new metal–ligand cooperative systems. Herein, the coordination chemistry of chelating ligands with a diphosphine imine framework (PCNP) to nickel is investigated. The imine moiety binds in an η1(N)-fashion in a Ni(II)Cl2 complex. The uncommon η2(C,N)-interaction is obtained in Ni(0) complexes in the presence of a PPh3 coligand. Increasing the bulk on the phosphine side-arms in the Ni(0) complexes, by substituting phenyl for o-tolyl groups, leads to a distinct binding mode in which only one of the phosphorus atoms is coordinated. In the absence of a coligand, a mixture of two different dimeric Ni(0) complexes is formed. In one of them, the imine adopts an uncommon η1(N)η2(C,N) bridging mode of the ligand to nickel, while the second one may involve reactivity on the ligand by the formation of a new C–C bond by oxidative coupling. The latter is supported by the isolation and structural characterization of a crystalline bis-CO derivative featuring a C–C bond formed by oxidative coupling of two imine moieties.

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Bioinspired Non-Heme Iron Complexes: The Evolution of Facial N, N, O Ligand Design

Monkcom¹,

Ghosh²,

Folkertsma³

et al. 2020

Chimia

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Iron-containing metalloenzymes that contain the 2-His-1-Carboxylate facial triad at their active site are well known for their ability to activate molecular oxygen and catalyse a broad range of oxidative transformations. Many of these reactions are synthetically challenging, and developing small molecular iron-based catalysts that can achieve similar reactivity and selectivity remains a long-standing goal in homogeneous catalysis. This review focuses on the development of bioinspired facial N,N,O ligands that model the 2-His-1-Carboxylate facial triad to a greater degree of structural accuracy than many of the polydentate N-donor ligands commonly used in this field. By developing robust, well-defined N,N,O facial ligands, an increased understanding could be gained of the factors governing enzymatic reactivity and selectivity.

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2H1C Mimicry: Bioinspired Iron and Zinc Complexes Supported by N,N,O Phenolate Ligands

et al. 2022

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In pursuit of mimicking the ubiquitous 2H1C motif in mononuclear non‐heme iron enzymes, two new bioinspired N,N,O phenolate ligands, BenzImNNO and ImPh2NNO, are synthesised and their coordination chemistry with zinc(II) and iron(II) is explored. BenzImNNO coordinates by means of an anionic κ3‐N,N,O donor set and readily forms homoleptic bisligated complexes, also in the presence of equimolar amounts of metal salt. In contrast, the increased steric bulk of ImPh2NNO promotes the formation of dinuclear complexes, [M2(ImPh2NNO)2(OTf)2] (M=Fe, Zn), with facially opposing metal sites, as a result of its unique bridging μ2:κ2‐N,N:κ1‐O coordination mode. We investigate the robustness of the ligand's dinucleating coordination mode during oxidative transformations and demonstrate that its coordination mode is retained upon triflate substitution for a biorelevant thiophenolate co‐ligand.

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Hidde A. Negenman

Versatile Coordination and C–C Coupling of Diphosphine-Tethered Imine Ligands with Ni(II) and Ni(0)

Bioinspired Non-Heme Iron Complexes: The Evolution of Facial N, N, O Ligand Design

2H1C Mimicry: Bioinspired Iron and Zinc Complexes Supported by N,N,O Phenolate Ligands

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