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Water Adsorption in Porous Metal–Organic Frameworks and Related Materials

吸附 金属有机骨架 多孔性 化学 化学工程 微晶 多孔介质 热稳定性 解吸 无机化学 金属 有机化学 结晶学 工程类
作者
Hiroyasu Furukawa,Felipe Gándara,Yue‐Biao Zhang,Juncong Jiang,Wendy L. Queen,Matthew R. Hudson,Omar M. Yaghi
出处
期刊:Journal of the American Chemical Society [American Chemical Society]
卷期号:136 (11): 4369-4381 被引量:2835
标识
DOI:10.1021/ja500330a
摘要

Water adsorption in porous materials is important for many applications such as dehumidification, thermal batteries, and delivery of drinking water in remote areas. In this study, we have identified three criteria for achieving high performing porous materials for water adsorption. These criteria deal with condensation pressure of water in the pores, uptake capacity, and recyclability and water stability of the material. In search of an excellently performing porous material, we have studied and compared the water adsorption properties of 23 materials, 20 of which are metal-organic frameworks (MOFs). Among the MOFs are 10 zirconium(IV) MOFs with a subset of these, MOF-801-SC (single crystal form), -802, -805, -806, -808, -812, and -841 reported for the first time. MOF-801-P (microcrystalline powder form) was reported earlier and studied here for its water adsorption properties. MOF-812 was only made and structurally characterized but not examined for water adsorption because it is a byproduct of MOF-841 synthesis. All the new zirconium MOFs are made from the Zr6O4(OH)4(-CO2)n secondary building units (n = 6, 8, 10, or 12) and variously shaped carboxyl organic linkers to make extended porous frameworks. The permanent porosity of all 23 materials was confirmed and their water adsorption measured to reveal that MOF-801-P and MOF-841 are the highest performers based on the three criteria stated above; they are water stable, do not lose capacity after five adsorption/desorption cycles, and are easily regenerated at room temperature. An X-ray single-crystal study and a powder neutron diffraction study reveal the position of the water adsorption sites in MOF-801 and highlight the importance of the intermolecular interaction between adsorbed water molecules within the pores.
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