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引用次数: 0
摘要
基于密度泛函理论的分子动力学结合显式溶解模型阐明了 Fe-TAML 催化水氧化反应中 O-O 进一步成键的步骤。根据计算,水对高价[TAML+--Fe5+=O]物种氧化基团的亲核攻击(WNA)和硝酸根对其的亲核攻击(NNA)具有相似的活性障碍(24 kcal/mol vs. 22 kcal/mol)。这表明硝酸根离子可以作为助催化剂促进 O-O 键的形成。更重要的是,我们观察到溶剂水的存在和热运动在 NNA 过程中起着至关重要的作用。通过比较显式溶剂 DFT-MD 模拟与隐式溶剂静态 DFT 计算得出的活化能势垒增加了 4 kcal/mol,从而量化了这一作用。
Unraveling the Role of the Nitrate Ion and Solvent Water on the O‐O Bond Formation Step in Fe‐TAML Catalyzed Water Oxidation
Density functional theory‐based molecular dynamics combined with an explicit solvation model were employed to elucidate the O‐O further bond formation step in Fe‐TAML catalyzed water oxidation reaction. The water nucleophilic attack (WNA) and nitrate nucleophilic attack (NNA) on the oxo group of the high‐valent [TAML+•‐Fe5+=O] species were calculated to have comparable active barriers (24 kcal/mol vs. 22 kcal/mol). This suggests nitrate ion can behave as a co‐catalyst to promote the O‐O bond formation. More importantly, a crucial role of the presence and thermal motion of solvent water in the NNA process was observed. This was quantified by an increase of the activation energy barrier by 4 kcal/mol, determined by comparing the explicit solvent DFT‐MD simulation with implicit solvent static DFT calculation.
期刊介绍:
With an impact factor of 4.495 (2018), ChemCatChem is one of the premier journals in the field of catalysis. The journal provides primary research papers and critical secondary information on heterogeneous, homogeneous and bio- and nanocatalysis. The journal is well placed to strengthen cross-communication within between these communities. Its authors and readers come from academia, the chemical industry, and government laboratories across the world. It is published on behalf of Chemistry Europe, an association of 16 European chemical societies, and is supported by the German Catalysis Society.
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