Hydrophilic Ti-MWW for catalyzing epoxidation of allyl alcohol

Chemical Synthesis Pub Date : 2024-02-05 DOI:10.20517/cs.2023.59

Xianchen Gong, Jie Tuo, Jilong Wang, Xintong Li, Chengwei Zhai, Hao Xu, Peng Wu

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引用次数: 0

Abstract

Titanosilicates are widely applied in the alkene epoxidation reactions with high reaction rate and selectivity to desired products. Their catalytic performance depends on the structure topology, the micro-environment of Ti active sites, and the hydrophobicity/hydrophilicity of zeolite framework. Herein, we focus on a hydrophilic substrate of allyl alcohol (AAL) and investigated catalytic performance of four titanosilicates (TS-1, Ti-MOR, Ti-MWW, and Re-Ti-MWW) in the AAL epoxidation reaction with hydrogen peroxide as the oxidant. Among them, Re-Ti-MWW, synthesized via the post-modification of Ti-MWW with piperidine, exhibited the highest activity. Moreover, the preferred solvent changed from MeCN for Ti-MWW to H2O for Re-Ti-MWW. The relative diffusion rate of AAL over Re-Ti-MWW was up to 466 × 10-7 s-1, much larger than those of other zeolites. The higher diffusion rate of Re-Ti-MWW was probably derived from the higher framework hydrophilicity as revealed by the smaller water contact angle of Re-Ti-MWW compared to the other zeolites, which contributed to the high activity in AAL epoxidation. In the continuous slurry reactor, Re-Ti-MWW achieved a high catalytic lifetime of 163 h, with the selectivity of desirable glycidol product maintained at > 97% in the H2O solvent system, showing high potential as an industrial catalyst for the AAL epoxidation reaction.

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催化烯丙醇环氧化反应的亲水性 Ti-MWW

钛硅酸盐广泛应用于烯环氧化反应，具有较高的反应速率和对所需产物的选择性。其催化性能取决于结构拓扑、钛活性位点的微环境以及沸石框架的疏水性/亲水性。在此，我们以亲水性底物烯丙醇（AAL）为研究对象，考察了四种钛硅酸盐（TS-1、Ti-MOR、Ti-WMW 和 Re-Ti-WMW）在以过氧化氢为氧化剂的 AAL 环氧化反应中的催化性能。其中，通过哌啶对 Ti-MWW 进行后修饰合成的 Re-Ti-MWW 的活性最高。此外，Ti-MWW 的首选溶剂从 MeCN 变为 Re-Ti-MWW 的 H2O。AAL 在 Re-Ti-MWW 上的相对扩散速率高达 466 × 10-7 s-1，远远大于其他沸石。与其他沸石相比，Re-Ti-MWW 的水接触角较小，这表明它的骨架亲水性较强，因此 Re-Ti-MWW 的扩散速率较高，这也是 AAL 环氧化活性较高的原因之一。在连续淤浆反应器中，Re-Ti-MWW 的催化寿命高达 163 小时，在 H2O 溶剂体系中对理想缩水甘油产物的选择性保持在 97% 以上，显示出其作为 AAL 环氧化反应工业催化剂的巨大潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Chemical Synthesis

CiteScore

3.40

自引率

0.00%

发文量