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由氧化还原活性NHC和MIC配体支撑的氮化钼配合物的合成及电化学性质

Synthesis and electrochemical properties of molybdenum nitrido complexes supported by redox-active NHC and MIC ligands.

作者信息

Leitner Daniel, Neururer Florian R, Hohloch Stephan

机构信息

Department of General, Inorganic and Theoretical Chemistry, University of Innsbruck, Innrain 80-82, 6020 Innsbruck, Austria.

出版信息

Dalton Trans. 2025 Jan 2;54(2):582-594. doi: 10.1039/d4dt02405b.

DOI:10.1039/d4dt02405b
PMID:39556080
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11572837/
Abstract

We report the synthesis of a series of molybdenum nitrido complexes supported by bis-phenolate N-heterocyclic and mesoionic carbenes (NHC & MIC). The reaction between MoN(OBu) and the corresponding azolium salts [H3L1]Cl and [H3L2]Cl (with L1 = bis-phenolate triazolylidene and L2 = bis-phenolate benzimidazolylidene) gives clean access to the corresponding NHC/MIC complexes 1-Cl and 2-Cl. Electrochemical investigations of these complexes showed that they can be reversibly reduced at potentials of -1.13 and -1.01 V Fc/[Fc] and the reduced complexes [1-Cl]- and [2-Cl]- can be cleanly isolated after chemical reduction with one equivalent of decamethylcobaltocene. Exchange of the halide atoms is furthermore reported to give a series of nitrido complexes supported by -butanolate (1-OtBu and 2-OtBu), perfluoro--butanolate (1-OtBuF9 and 2-OtBuF9), tritylate (1-OCPh3 and 2-OCPh3), mesitolate (1-OMes and 2-OMes), thio--butanolate (1-StBu), thiotritylate (1-SCPh3 and 2-SCPh3) and thiomesitolate complexes (1-SMes). The electrochemical properties of all complexes were evaluated and compared. All isolated complexes were characterized by multinuclear and multidimensional NMR spectroscopy and (if applicable) by EPR spectroscopy. Furthermore, the reactivity of 1-Cl and 2-Cl in the presence of protons and decamethylcobaltocene was investigated, which shows facile extrusion of ammonia, yielding diamagnetic bis-molybdenum(III) complexes 3 and 4.

摘要

我们报道了一系列由双酚盐氮杂环卡宾和中氮茚卡宾(NHC和MIC)支撑的氮化钼配合物的合成。MoN(OBu)与相应的唑盐[H3L1]Cl和[H3L2]Cl(其中L1 = 双酚盐三唑亚基,L2 = 双酚盐苯并咪唑亚基)之间的反应可直接得到相应的NHC/MIC配合物1-Cl和2-Cl。对这些配合物的电化学研究表明,它们在 -1.13 V和 -1.01 V Fc/[Fc]的电位下可被可逆还原,并且在用一当量的十甲基钴ocene进行化学还原后,可以干净地分离出还原后的配合物[1-Cl]-和[2-Cl]-。此外,据报道卤原子的交换可得到一系列由叔丁醇盐(1-OtBu和2-OtBu)、全氟叔丁醇盐(1-OtBuF9和2-OtBuF9)、三苯甲基盐(1-OCPh3和2-OCPh3)、均三甲苯磺酸盐(1-OMes和2-OMes)、硫代叔丁醇盐(1-StBu)、硫代三苯甲基盐(1-SCPh3和2-SCPh3)和硫代均三甲苯磺酸盐配合物(1-SMes)支撑的氮化钼配合物。对所有配合物的电化学性质进行了评估和比较。所有分离出的配合物均通过多核和多维NMR光谱以及(如适用)EPR光谱进行了表征。此外,研究了1-Cl和2-Cl在质子和十甲基钴ocene存在下的反应性,结果表明它们能轻松挤出氨,生成抗磁性的双钼(III)配合物3和4。

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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/35c7/11572837/13304ce9b31b/d4dt02405b-f1.jpg
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