在 H-zeolites 上通过二甲氧基甲烷歧化合成甲酸甲酯的绿色温和方法

IF 4.7 2区化学 Q2 CHEMISTRY, PHYSICAL

Applied Catalysis A: General Pub Date : 2024-06-25 DOI:10.1016/j.apcata.2024.119860

Leilei Yang , Youming Ni , Mingguan Xie , Zhiyang Chen , Xudong Fang , Bin Li , Hongchao Liu , Wenliang Zhu

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引用次数: 0

摘要

甲酸甲酯（MF）是现代化学工业中的重要组成部分，主要是在苛刻的反应条件下通过甲醇的均相羰基化反应生产出来的。如何在温和的反应条件下开发新的异相催化体系来取代均相催化路线，是一个非常有意义但仍面临挑战的问题。在此，我们报告了一种在酸性沸石上通过二甲氧基甲烷（DMM）歧化生产 MF 的高效绿色策略。在 0.1 MPa 和 393 K 的温和条件下，H-SSZ-13 实现了高达近 100% 的 DMM 转化率和 0.76 g gcat-1 h-1 的 MF 空间时间产率（STY）。此外，H-SSZ-13 在 100 小时的连续测试中表现出更高的稳定性。结合多种表征，甲醛 (FA) 被证明是形成 MF 的关键前体，并提出了完整的机理。这一策略为利用酸性沸石作为催化剂，通过异相催化系统连续大规模生产 MF 提供了一种新的可行方法。

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A green and moderate approach for the synthesis of methyl formate via dimethoxymethane disproportionation over H-zeolites

Methyl formate (MF) is an important building block in the modern chemical industry, primarily produced through homogeneous carbonylation of methanol under harsh reaction conditions. It is of great interest but remains challenges to develop new heterogeneous catalytic system under mild reaction conditions to replace the homogeneous route. Herein, we report an efficient and green strategy for MF production by dimethoxymethane (DMM) disproportionation over acidic zeolites. Up to nearly100 % DMM conversion and 0.76 g g_cat⁻¹ h⁻¹ of MF space time yield (STY) is achieved over H-SSZ-13 under moderate conditions of 0.1 MPa and 393 K. Moreover, H-SSZ-13 shows superior stability during a 100 h continuous test. Combined with multiple characterizations, formaldehyde (FA) has been proved to be a crucial precursor for the formation of MF and the complete mechanism is proposed. This strategy provides a new and feasible approach for continuous large-scale MF production using acidic zeolite as catalyst by heterogeneous catalytic systems.

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来源期刊

Applied Catalysis A: General 化学-环境科学

CiteScore

9.00

自引率

5.50%

发文量

415

审稿时长

24 days

期刊介绍： Applied Catalysis A: General publishes original papers on all aspects of catalysis of basic and practical interest to chemical scientists in both industrial and academic fields, with an emphasis onnew understanding of catalysts and catalytic reactions, new catalytic materials, new techniques, and new processes, especially those that have potential practical implications. Papers that report results of a thorough study or optimization of systems or processes that are well understood, widely studied, or minor variations of known ones are discouraged. Authors should include statements in a separate section "Justification for Publication" of how the manuscript fits the scope of the journal in the cover letter to the editors. Submissions without such justification will be rejected without review.