Diamine-Appended Metal Oxide Framework Materials for Thermal-Swing Ad- and Desorption of Carbon Dioxide at Ambient Conditions

Frontiers in environmental chemistry Pub Date : 2022-05-20 DOI:10.3389/fenvc.2022.847682

Kamal K. Maharjan, Philip B. Jørgensen, M. Rezaei, M. Johnson

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Abstract

Carbon dioxide is a waste product of human metabolism that is unwanted in the indoor atmosphere. Here we test advanced materials that could be used to pump away carbon dioxide and thereby improve indoor air quality. Metal-organic framework (MOF) structures have a variety of properties that make them attractive for direct air capture (DAC) of CO2. In this study, Mg2 (dobpdc4- = 4,4-dioxidobiphenyl-3,3-dicarboxylate) and m-2-m-Mg2(dobpdc) were evaluated for their ability to adsorb and desorb CO2 at ambient atmospheric conditions via a thermal swing. The Mg2(dobpdc) sample did not show appreciable interaction with CO2 in contrast to the diamine-appended version. The molar occupancy of CO2 on the active sites of m-2-m-Mg2 (dobpdc) (m-2-m = N,N-dimethylethylenediamine) during adsorption and desorption was in the range of 5.6–11.8%. These experiments showed the rapid ad- and de-sorption of CO2 by the MOF. Relative humidity was seen to be an important variable and the performance of the tested structures decreased slightly after several cycles of use.

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在环境条件下用于二氧化碳的热摇摆吸附和解吸的二胺附加金属氧化物框架材料

二氧化碳是人体新陈代谢的废物，在室内大气中是不需要的。在这里，我们测试了可以用来抽走二氧化碳从而改善室内空气质量的先进材料。金属有机框架（MOF）结构具有多种性质，使其对CO2的直接空气捕获（DAC）具有吸引力。在本研究中，评估了Mg2（dobpc4-=4,4-二氧化二苯基-3,3-二羧酸盐）和m-2-m-Mg2（多bpdc）在环境大气条件下通过热摆动吸附和解吸CO2的能力。与添加二胺的形式相比，Mg2（dobpdc）样品没有显示出与CO2的明显相互作用。在吸附和解吸过程中，m-2-m-Mg2（dobpdc）（m-2-m=N，N-二甲基乙二胺）活性位点上CO2的摩尔占有率在5.6–11.8%之间。这些实验表明MOF对CO2的快速吸附和解吸。相对湿度被认为是一个重要的变量，测试结构的性能在几个使用周期后略有下降。

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Frontiers in environmental chemistry

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13 weeks