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调控高稳定CAU-10-X(X=H、NO2、CH3)孔化学环境以实现N2O高效捕获
引用本文:张迎迎,张飞飞,马蕾,王丽,杨江峰. 调控高稳定CAU-10-X(X=H、NO2、CH3)孔化学环境以实现N2O高效捕获[J]. 无机化学学报, 2022, 38(11): 2213-2221
作者姓名:张迎迎  张飞飞  马蕾  王丽  杨江峰
作者单位:太原理工大学化学工程与技术学院, 气体能源高效清洁利用山西省重点实验室, 太原 030024
基金项目:国家自然科学基金联合基金项目(No.U20B6004,22090062)资助
摘    要:合成3种具有不同取代基(—X)的金属有机骨架(MOFs)材料CAU-10-X(X=H、NO2、CH3),研究了从N2O/N2混合物中吸附捕获N2O的性能。综合单组分吸附等温线、吸附热和IAST(理想溶液吸附理论)选择性的实验结果,发现CAU-10-NO2在低压区的N2O吸附量明显高于母体CAU-10-H,其可以有效地从N2O/N2混合物中捕集N2O,而CAU-10-CH3则表现出相反的效果。N2O/N2混合物的穿透模拟进一步证明CAU-10-NO2对微量N2O具有较好的捕获能力,循环实验显示该材料具有良好的稳定性。

关 键 词:氧化亚氮  氮气  CAU-10  取代基  吸附分离
收稿时间:2022-05-03
修稿时间:2022-09-19

Control of High Stability CAU-10-X (X=H, NO2, CH3) Pore Chemical Environment for Efficient Capture of N2O
ZHANG Ying-Ying,ZHANG Fei-Fei,MA Lei,WANG Li,YANG Jiang-Feng. Control of High Stability CAU-10-X (X=H, NO2, CH3) Pore Chemical Environment for Efficient Capture of N2O[J]. Chinese Journal of Inorganic Chemistry, 2022, 38(11): 2213-2221
Authors:ZHANG Ying-Ying  ZHANG Fei-Fei  MA Lei  WANG Li  YANG Jiang-Feng
Affiliation:College of Chemical Engineering and Technology, Shanxi Key Laboratory of Gas Energy Efficient and Clean Utilization, Taiyuan University of Technology, Taiyuan 030024, China
Abstract:Three metal-organic frameworks (MOFs) materials, CAU-10-X (X=H, NO 2, CH3), with different substituents (-X) were synthesized and the adsorption and capture properties of N2O from N2O/N2 mixtures were studied. Considering the experimental results of single-component adsorption isotherm, adsorption heat, and IAST (ideal adsorbed solution theory) selectivity, we found that the adsorption capacity of CAU-10-NO2 was significantly higher than that of the parent CAU-10-H in the low-pressure region, and it could effectively capture N2O from the N2O/N2 mixture, while CAU-10-CH3 showed the opposite effect. The penetration simulation of N2O/N2 mixture further proved that CAU-10-NO2 had a good ability to capture trace N2O, and the cycle experiment showed that CAU-10-NO2 had good stability.
Keywords:nitrous oxide  nitrogen  CAU-10  substituent  adsorption and separation
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