水合/脱水诱导的多孔氢键有机框架与无孔分子晶体之间的可逆转变用于高效气体脱水

Hydration/Dehydration Induced Reversible Transformation between a Porous Hydrogen-Bonded Organic Framework and a Nonporous Molecular Crystal for Highly Efficient Gas Dehydration.

作者信息

Wang Yao, Song Xiyu, Mo Guanglai, Gao Xiangyu, Wu Enyu, Li Bin, Bi Yunbo, Li Peng

机构信息

Shanghai Key Laboratory of Molecular Catalysis and Innovative Materials, Department of Chemistry, Fudan University, 2005 Songhu Road, Shanghai 200438, P. R. China.

State Key Laboratory of Silicon Materials, School of Materials Science and Engineering, Zhejiang University, Hang-zhou 310027 China.

出版信息

Chem Bio Eng. 2024 Mar 12;1(4):283-288. doi: 10.1021/cbe.3c00114. eCollection 2024 May 23.

DOI:10.1021/cbe.3c00114

PMID:39974469

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC11835148/

Abstract

Gas dehydration is a critical process in gas transportation and chemical reactions, yet traditional drying agents require an energy-intensive dehydration and regeneration step. Here, we present a nonporous molecular crystal called Melem that can be synthesized and scaled up through solid-state synthesis methods. Melem exhibits exceptional water selectivity in gas dehydration and can be reactivated under moderate conditions. According to the single-crystal structure and powder X-ray diffraction studies, a reversible structural transformation between Melem and its hydrated form, Melem-HO, induced by hydration/dehydration processes has been observed. Melem displays water adsorption properties with a maximum uptake of 11 mmol·g at / = 0.92 and 298 K. Additionally, Melem retained consistent water capture capacities after 5 adsorption-desorption cycles. The remarkable gas dehydration performance of Melem was confirmed by column breakthrough experiments, which achieved a separation factor of up to 654.

摘要

气体脱水是气体运输和化学反应中的一个关键过程，但传统干燥剂需要耗费大量能源进行脱水和再生步骤。在此，我们展示了一种名为蜜勒胺的无孔分子晶体，它可以通过固态合成方法进行合成并扩大规模。蜜勒胺在气体脱水中表现出卓越的水选择性，并且可以在温和条件下重新活化。根据单晶结构和粉末X射线衍射研究，观察到了蜜勒胺与其水合形式蜜勒胺 - HO之间由水合/脱水过程诱导的可逆结构转变。蜜勒胺在相对湿度（RH） = 0.92和298 K时显示出水吸附特性，最大吸附量为11 mmol·g⁻¹。此外，蜜勒胺在5次吸附 - 解吸循环后仍保持一致的水捕获能力。柱穿透实验证实了蜜勒胺卓越的气体脱水性能，其分离因子高达654。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5d61/11835148/93574b4d05f9/be3c00114_0005.jpg

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水合/脱水诱导的多孔氢键有机框架与无孔分子晶体之间的可逆转变用于高效气体脱水

Hydration/Dehydration Induced Reversible Transformation between a Porous Hydrogen-Bonded Organic Framework and a Nonporous Molecular Crystal for Highly Efficient Gas Dehydration.

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