Synthesis and Modification of Formate Zr-MOF (ZrFA) toward Scalable and Cost-Cutting Gas Separation

IF 16.1 1区化学 Q1 CHEMISTRY, MULTIDISCIPLINARY

Angewandte Chemie International Edition Pub Date : 2025-05-02 DOI:10.1002/anie.202505978

Xiao-Hong Xiong, Liang Song, Wei Wang, Xiao-Yan Zhu, Liu-Li Meng, Hui-Ting Zheng, Zhang-Wen Wei, Li-Lin Tan, Xiao-Chun Huang, Cheng-Yong Su

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引用次数: 0

Abstract

The mass production of metal-organic frameworks (MOFs) with affordable cost is highly demanding yet limited for commercial applications, e.g., purification of polymer-grade ethylene (C2H4) via acetylene (C2H2) and carbon dioxide (CO2) removal faces the challenge of developing low-cost and large-scale physisorbents with efficiency and recyclability. Herein, we developed a viable synthetic protocol to scale-up a series of ultramicroporous Zr-MOFs (ZrFA/ZrFA-D/ZrFA-D-Cu(I)) with the simplest monocarboxylate, formate (FA), through consecutive production by recycling solvent/modulator. Besides a size-exclusion effect disfavoring C2H4 adsorption, introduction of defective and Cu(I) sites was found to enhance gas affinity and uptake capacity. A comprehensive evaluation of C2H4 separation and economic efficiency has been proposed, suggesting the improvement of C2H2 uptake capacity is effective for the binary C2H2/C2H4 separation, while the separation process of the ternary C2H2/CO2/C2H4 mixtures depends on subtle tradeoff of complex factors and limited by challenging CO2/C2H4 separating. Notably, the large-scale separation has been testified to significantly improve separation efficiency, and the low-cost preparation benefits high economic efficiency. The distinct C2H2/C2H4/CO2 adsorption mechanism in ZrFA/ZrFA-D/ZrFA-D-Cu(I) has been elucidated by the theoretical calculations. This work may shed a light on the future C2H4 purification technology by pushing MOF-syntheses towards low-cost, scale-up, and recyclable production.

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甲酸Zr-MOF （ZrFA）的合成与改性及其在气体分离中的应用

大规模生产成本合理的金属有机框架（mof）要求很高，但商业应用有限，例如，通过乙炔（C2H2）净化聚合物级乙烯（C2H4）和去除二氧化碳（CO2）面临开发低成本和大规模高效可回收的物理吸收剂的挑战。在此，我们开发了一种可行的合成方案，以最简单的单羧酸酯甲酸酯（FA）为原料，通过回收溶剂/调节剂连续生产一系列超微孔zr - mof （ZrFA/ZrFA- d /ZrFA- d - cu (I)）。除了粒径排斥效应不利于C2H4吸附外，缺陷位点和Cu(I)位点的引入增强了气体亲和力和吸收能力。综合评价了C2H4的分离效率和经济性，表明提高C2H2吸收能力对二元C2H2/C2H4分离是有效的，而三元C2H2/CO2/C2H4混合物的分离过程依赖于复杂因素的微妙权衡，并且受到CO2/C2H4分离难度的限制。值得注意的是，大规模分离已被证明可以显著提高分离效率，并且低成本的制备具有较高的经济效益。通过理论计算阐明了ZrFA/ZrFA- d /ZrFA- d - cu (I)对C2H2/C2H4/CO2的独特吸附机理。这项工作可能会通过推动mof合成向低成本、规模化和可回收生产的方向发展，为未来的C2H4净化技术带来光明。

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

Angewandte Chemie International Edition 化学-化学综合

CiteScore

26.60

自引率

6.60%

发文量

3549

审稿时长

1.5 months

期刊介绍： Angewandte Chemie, a journal of the German Chemical Society (GDCh), maintains a leading position among scholarly journals in general chemistry with an impressive Impact Factor of 16.6 (2022 Journal Citation Reports, Clarivate, 2023). Published weekly in a reader-friendly format, it features new articles almost every day. Established in 1887, Angewandte Chemie is a prominent chemistry journal, offering a dynamic blend of Review-type articles, Highlights, Communications, and Research Articles on a weekly basis, making it unique in the field.