Adsorption and separations of small molecules in porous media

微型多孔材料 吸附 格式化 氢气储存 材料科学 金属有机骨架 多孔介质 配体(生物化学) 分子 纳米技术 化学工程 同步加速器 小分子 多孔性 金属 气体分离 工作(物理) 化学 智能材料 模块化设计 粉末衍射 纳米孔 选择性吸附
作者
Craig M. Brown
出处
期刊:Structural Dynamics [AIP Publishing]
卷期号:12 (5_Supplement): A239-A239
标识
DOI:10.1063/4.0001029
摘要

Metal-organic frameworks (MOFs) are crystalline materials that contain metal-ions or metal-ion clusters as nodes and organic ligands as linkers to form 0-, 1-, 2-, and 3-D structures. Their structural versatility and multifunctional properties have sparked much interest in advanced materials synthesis, and due to their modular nature, many of these materials can be constructed by design. Over the last decade, several MOFs reportedly have high surface areas, allowing them to physically adsorb significant amounts of gas and/or exhibit significant separation performance. The adsorption of molecules in functionalized and high-surface microporous materials is of technological importance in many areas, ranging from catalysis, drug delivery, chemical separations, and energy storage to personal care products. Their uptake properties can be tuned by carefully selecting the ligand and metal that control pore size/shape and MOF-adsorbate interactions. We have focused on understanding the properties of gas interactions within various microporous materials to identify and understand new optimal storage and separation materials. We have recently structurally characterized high-capacity room-temperature hydrogen storage in MOFs through careful ligand and exposed metal cation availability. [1][2] We can further delineate ligand dynamic impact on controlling kinetic-to-thermodynamic control regimes for selective gas adsorption in the simplest ultra-microporous MOF, aluminum formate. This allows the temperature-controlled separations of H2, Ar, O2, CO2, and C2H2 from such gases as N2 and CH4. [3][4][5][6] Our most recent work details the mechanism for high-temperature (300 oC) capture of CO2 from a wet gas stream in a metal-H containing MOF. We use in-situ synchrotron X-ray powder diffraction to illustrate the quantitive formate formation upon adsorption and identify the hydride by applying neutron powder diffraction. [7] We will discuss these recent results in context and illustrate the potential for industrial uses of MOFs.
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