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引用次数: 0
摘要
支撑催化剂是工业催化过程的核心。传统的合成方法通常会产生定义不清的材料,从而使结构阐释变得复杂,而表面有机金属化学(SOMC)提供了一种解决方案,可以产生定义明确的结构。SOMC 前体开发的最新进展表明,基于脒基的前体是生成支撑金属纳米颗粒的一类理想前体。在此背景下,本研究探讨了脒基前驱体 Ir(COD)(DIA) (1-Ir) 与二氧化硅的接枝机理。与脒基配合物不同的是,接枝发生时不会释放配体,从而形成可逆的共价键。利用三(叔丁氧基)硅烷醇作为二氧化硅上硅烷醇基团的分子类似物,通过单 X 射线衍射以及红外光谱和 X 射线吸收光谱 (XAS) 数据的比较,阐明了接枝物种的结构。利用变温核磁共振光谱和红外光谱证明了与 O-H 基团反应的可逆性,并得到了 DFT 计算的支持。值得注意的是,我们发现在真空条件下,部分脱嫁接反应也可以在高温下进行。
Reversible Grafting in Surface Organometallic Chemistry with a Late Transition-Metal Amidinate Precursor
Supported catalysts are central to industrial catalytic processes. While traditional synthesis methods often yield poorly defined materials, thus complicating structural elucidation, Surface Organometallic Chemistry (SOMC) offers a solution, producing well-defined structures. Recent advances in SOMC precursor development have shown that amidinate-based precursors are a privileged class of precursors to generate supported metallic nanoparticles. In that context, this study investigates the grafting mechanism of a prototypical amidinate precursor, Ir(COD)(DIA) (1-Ir), onto SiO2. Unique to amidinate complexes, grafting is shown to occur without ligand release, creating a reversible covalent bond. Using tris(tert-butoxy)silanol as a molecular analogue for a silanol group on SiO2, the structure of the grafted species is elucidated by single X-Ray diffraction, and comparison of IR spectroscopy, and X-Ray absorption spectroscopy (XAS) data. The reversibility of the reaction with O-H groups is demonstrated using variable-temperature NMR spectroscopy, IR spectroscopy, and is supported by DFT calculations. Notably, we show that a partial degrafting is also possible at elevated temperatures under vacuum.
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