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引用次数: 0
摘要
了解沸石气相和水相催化过程中沸石框架和催化活性位点的变化至关重要。在此,我们使用各种表征技术反演了经六氟硅酸铵(AHFS)处理的 HZSM-5 沸石在蒸汽和热液态水(HLW)环境下框架 T 原子(Si 和 Al)的演变。在 HLW 环境中,Si-O-Si 键的热液稳定性比 Si-O-Al 键差,这与蒸汽环境形成鲜明对比。在不去除或去除框架四面体 Al 原子(Al(IV)-1)的情况下,Si 原子会发生严重的沥滤。与蒸汽类似,高浓铀浓缩物环境中的 Al(IV)-1 物种通过部分和完全水解,依次演变为部分配位的框架 Al 物种,然后演变为框架外 Al (EFAL) 物种。生成的 EFAL 物种充当路易斯酸位点,但它们的局部结构或化学环境可能有所不同。这些发现揭示了水分子所攻击的 T-O-T 键的差异:蒸汽中主要攻击的是 Si-O-Al 键,而在 HLW 中主要攻击的是 Si-O-Si 键。
Comparative Study of Si‐O‐Al and Si‐O‐Si Bond Stability in HZSM‐5 Zeolite Under Steam and Hot Liquid Water Environments
Understanding the changes in the zeolite framework and catalytic active sites in zeolite‐based vapor‐phase and aqueous catalytic processes is crucial. Herein, the evolution of framework T atoms (Si and Al) in ammonium hexafluorosilicate (AHFS)‐treated HZSM‐5 zeolite under steam and hot liquid water (HLW) environments was inverstigated using various characterization techniques. In the HLW environment, Si‐O‐Si bonds exhibit poorer hydrothermal stability than Si‐O‐Al bonds, in contrast to the steam environment. Significant Si atom leaching occurs without or with the removal of framework tetrahedral Al atoms (Al(IV)‐1). Similar to steam, Al(IV)‐1 species in the HLW environment sequentially evolve into partially coordinated framework Al species and then into extra‐framework Al (EFAL) species through partial and complete hydrolysis. The generated EFAL species act as Lewis acid sites, but their local structures or chemical environments may differ. These findings reveal the difference in the T‐O‐T bonds attacked by water molecules: the Si‐O‐Al bonds is primarily attacked in steam, whereas the Si‐O‐Si bond is primarily attacked in HLW.
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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