Bifunctional Ligands: Evaluating the Role of Acidic Protons in the Secondary Coordination Sphere.

IF 3.9 2区化学 Q2 CHEMISTRY, MULTIDISCIPLINARY Chemistry - A European Journal Pub Date : 2024-10-11 Epub Date: 2024-09-23 DOI:10.1002/chem.202304292

Anant Kumar Jain, Santanu Malakar, Austin T Cannon, Sophia Miranda M Gonzalez, Taylor M Keller, Patrick J Carroll, Michael R Gau, Jonathan L Kuo, Karen I Goldberg

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Abstract

To evaluate bifunctional ligand reactivity involving NH acidic sites in the secondary coordination sphere, complexes where the proton has been substituted with a methyl group (NMe) are often investigated. An alternative strategy involves substitution of the NH group for an O. This contribution considers and compares the merits of these approaches; the synthesis and characterization of cationic square-planar Rh carbonyl complexes bearing diprotic bispyrazole pyridine ligand L1, and the bis-methylated pyrazole pyridine ligand L1Me are described. The syntheses and characterization of the novel monoprotic pyrazole isoxazole pyridine ligand L2 and aprotic bisisoxazole pyridine ligand L3, and their corresponding Rh carbonyl complexes are also described. Comparison of the CO stretching frequencies of the four Rh complexes suggest that substitutions of NH with NMe, as well as with O, lead to significant electronic differences. These electronic differences result in different reactivities with respect to ligand addition/substitution of the Rh carbonyl complexes. Overall, the data suggest that electronic differences arising due to the NH substitutions can be significant and should be considered when the NH group is substituted in investigations of the participation of the NH proton in a reaction.

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双功能配体：评估酸性质子在次级配位层中的作用。

为了评估涉及金属配合物次级配位层中 NH 酸性位点的双功能配体反应性，通常会研究质子被甲基（NMe）取代的配合物。本文对这些方法的优缺点进行了研究和比较；介绍了含有二丙基双吡唑吡啶配体 L1 和双甲基化吡唑吡啶配体 L1Me 的阳离子方形羰基 Rh 配合物的合成和表征。此外，还介绍了新型单质子吡唑异噁唑吡啶配体 L2 和非质子双噁唑吡啶配体 L3 及其相应的羰基铑配合物的合成和表征。所有四种 Rh 复合物不同的 CO 伸缩频率表明，NH 与 NMe 以及 O 的取代会导致显著的电子差异，这些差异进一步证明会导致四种等电子 Rh 复合物不同的配体添加/取代反应活性。总之，研究结果表明，由于 NH 取代而产生的电子差异可能非常明显，在考虑质子的参与之前必须对其进行解释。

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来源期刊

Chemistry - A European Journal 化学-化学综合

CiteScore

7.90

自引率

4.70%

发文量

1808

审稿时长

1.8 months

期刊介绍： Chemistry—A European Journal is a truly international journal with top quality contributions (2018 ISI Impact Factor: 5.16). It publishes a wide range of outstanding Reviews, Minireviews, Concepts, Full Papers, and Communications from all areas of chemistry and related fields. Based in Europe Chemistry—A European Journal provides an excellent platform for increasing the visibility of European chemistry as well as for featuring the best research from authors from around the world. All manuscripts are peer-reviewed, and electronic processing ensures accurate reproduction of text and data, plus short publication times. The Concepts section provides nonspecialist readers with a useful conceptual guide to unfamiliar areas and experts with new angles on familiar problems. Chemistry—A European Journal is published on behalf of ChemPubSoc Europe, a group of 16 national chemical societies from within Europe, and supported by the Asian Chemical Editorial Societies. The ChemPubSoc Europe family comprises: Angewandte Chemie, Chemistry—A European Journal, European Journal of Organic Chemistry, European Journal of Inorganic Chemistry, ChemPhysChem, ChemBioChem, ChemMedChem, ChemCatChem, ChemSusChem, ChemPlusChem, ChemElectroChem, and ChemistryOpen.