Lee Dianne S, Singh Ishwar, Veinot Alex J, Aloisio Mark D, Lomax Justin T, Ragogna Paul J, Crudden Cathleen M
Department of Chemistry, Queen's University 90 Bader Lane Kingston Ontario K7L 3N6 Canada
Carbon to Metal Coating Institute, C2MCI, Queen's University 90 Bader Lane Kingston Ontario K7L 4V1 Canada.
Chem Sci. 2023 Dec 15;15(7):2480-2485. doi: 10.1039/d3sc04720b. eCollection 2024 Feb 14.
N-Heterocyclic carbenes (NHC) have been widely studied as ligands for surface chemistry, and have shown advantages compared to existing ligands ( thiols). Herein, we introduce mesoionic carbenes (MICs) as a new type of surface ligand. MICs exhibit higher σ-donor ability compared to typical NHCs, yet they have received little attention in the area of surface chemistry. The synthesis of MICs derived from imidazo[1,2-]pyridine was established and fully characterized by spectroscopic methods. The self-assembly of these MICs on gold was analyzed by X-ray photoelectron spectroscopy (XPS). Additionally, XPS was used to compare bonding ability in MICs compared to the typical NHCs. These results show that MIC overlayers on gold are robust, resistant to replacement by NHCs, and may be superior to NHCs for applications that require even greater levels of robustness.
N-杂环卡宾(NHC)作为表面化学的配体已被广泛研究,并且与现有配体(硫醇)相比已显示出优势。在此,我们引入中氮茚卡宾(MIC)作为一种新型的表面配体。与典型的NHC相比,MIC表现出更高的σ供体能力,但它们在表面化学领域很少受到关注。建立了源自咪唑并[1,2 -]吡啶的MIC的合成方法,并通过光谱方法进行了全面表征。通过X射线光电子能谱(XPS)分析了这些MIC在金表面的自组装情况。此外,XPS用于比较MIC与典型NHC的键合能力。这些结果表明,金表面的MIC覆盖层很稳定,能抵抗NHC的取代,并且对于需要更高稳定性的应用可能优于NHC。
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