Weilin Jia, Suyang Wang, Yingying Deng, Jie Shen, Ping Zhao, Zepeng Wang, Jiaojing Shao, Yuanyu Wang, Qi Sun
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引用次数: 0
摘要
报告了一种简单有效的方法,即通过添加模板剂从高岭土中快速合成沸石 X。X 射线衍射结果证实了合成的 X-zeolite 具有良好的结晶性和层状结构。透射电子显微镜图像清楚地显示了合成的 X-zeolite 的层状结构。相应的选择性电子衍射图表明 X 型沸石的晶体结构为八面体结构。元素图谱检测到合成的 X 型沸石的层状结构中 Si、Al、O 和 Na 共存且分布均匀。此外,N2 吸附-解吸测量表明,X 型片状沸石的比表面积为 153.4625 m2 g-1。微孔表面积为 148.8374 m2 g-1,微孔体积为 0.073377 m2 g-1。在探讨了不同温度对二氧化碳吸附的影响后,研究表明二维沸石 X 对二氧化碳的吸附能力最好。研究了 CO2/CH4 的吸附和分离性能。研究表明,二维沸石 X 的吸附分离系数最高。
Characterization and application of lamellar zeolite-X prepared from kaolin
A simple and effective method was reported for the rapid synthesis of zeolite X from kaolin by adding a template agent. The results of X-ray diffraction confirm the good crystallinity of the synthesized X-zeolite with lamellar structure. Transmission electron microscopy images clearly demonstrate the lamellar structure of the synthesized X-zeolite. The corresponding selective electron diffraction pattern suggests that the crystal structure of X-type zeolite is octahedral. The co-existence and uniform distribution of Si, Al, O, and Na in the layered structure of the synthesized X-type zeolite are detected by element mapping. In addition, N2 adsorption–desorption measurement indicates that the specific surface area of the lamellar zeolite X is 153.4625 m2 g−1. The micropore surface area is 148.8374 m2 g−1, and the micropore volume is 0.073377 m2 g−1. After exploring the influence of different temperatures on the adsorption of carbon dioxide, the research shows that two-dimensional zeolite X has the best adsorption capacity for carbon dioxide. The adsorption and separation performance of CO2/CH4 was investigated. The study showed that the adsorption and separation coefficient of two-dimensional zeolite X was the highest.
期刊介绍:
Micro & Nano Letters offers express online publication of short research papers containing the latest advances in miniature and ultraminiature structures and systems. With an average of six weeks to decision, and publication online in advance of each issue, Micro & Nano Letters offers a rapid route for the international dissemination of high quality research findings from both the micro and nano communities.
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Micro & Nano Letters offers express online publication of short research papers containing the latest advances in micro and nano-scale science, engineering and technology, with at least one dimension ranging from micrometers to nanometers. Micro & Nano Letters offers readers high-quality original research from both the micro and nano communities, and the materials and devices communities.
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