Challenge towards synthesis of non-silica-based hybrid mesoporous materials

Q4 Social Sciences
Tatsuo Kimura
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Abstract

−111− Synthesiology English edition Vol.11 No.3 pp.111 –123 (Feb. 2018) extremely narrow pore size distribution. Although the image is a common sight now, one can imagine that the transmission electron microscope (TEM) photograph that showed the uniform ordered mesopores that was published in Nature at the time of its discovery made a great impression on materials researchers. Figure 1 (top) shows a typical analysis result of mesoporous silica. A nanoscale ordered structure can be seen from X-ray diffraction measurement in the low-angle range, and it is possible to directly visualize the structure through TEM observation. Also, by analyzing the shape of nitrogen adsorption isotherms, it is possible to calculate a specific surface area, pore capacity, and pore size distribution. However, impurities or materials that have not turned porous may be mixed. Therefore, to determine the success of mesoporous silica synthesis, it is necessary to see not only the uniformity and periodicity of mesopores, but also various analysis results comprehensively.
合成非硅基杂化介孔材料的挑战
−111−Synthesiology英文版Vol.11 No.3 pp.111 -123(2018年2月)孔径分布极窄。虽然这张照片现在很常见,但可以想象,当时发表在《自然》杂志上的透射电子显微镜(TEM)照片显示了均匀有序的介孔,给材料研究人员留下了深刻的印象。图1(上)是介孔二氧化硅的典型分析结果。x射线衍射测量在低角度范围内可以看到纳米尺度的有序结构,通过透射电镜观察可以直接看到结构。此外,通过分析氮吸附等温线的形状,可以计算出比表面积、孔容量和孔径分布。然而,杂质或没有变得多孔的材料可能混合在一起。因此,要判断介孔二氧化硅合成是否成功,不仅要看介孔的均匀性和周期性,还要综合看各种分析结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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Synthesiology
Synthesiology Social Sciences-Social Sciences (all)
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