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具有不同层间距、比表面和孔径大小的氧化硅柱层状铌酸的制备 被引量:3

Preparation of Thermostable Silica pillared Layered Niobic Acids with Different Interlayer Distance, Surface Area and Pore Size
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摘要 By varying the concentration of APS aqueous solution, reaction time and temperature, a series of silica pillared layered niobic acids with different interlayer distances, surface areas, pore sizes and thermostability were successfully prepared. It was shown that increasing the concentration of APS aqueous solution under a certain level(from 2.1% to 10%) led to the formation of silica pillared layered niobic acids with a gradually increased interlayer distance, surface area and silica pillar density, and therefore a gradually decreased pore size, but the same thermostability. On the other hand, reducing reaction time from 3 days to 1 day caused the decrease of the interlayer distance, surface area and thermostability, but the increase of pore size due to lower pillar density. Furthermore, the reaction at room temperature gave rise to the silica pillared layered niobic acid with a smaller interlayer distance and pore size, a slightly larger specific surface area and a lower thermostability. By varying the concentration of APS aqueous solution, reaction time and temperature, a series of silica pillared layered niobic acids with different interlayer distances, surface areas, pore sizes and thermostability were successfully prepared. It was shown that increasing the concentration of APS aqueous solution under a certain level(from 2.1% to 10%) led to the formation of silica pillared layered niobic acids with a gradually increased interlayer distance, surface area and silica pillar density, and therefore a gradually decreased pore size, but the same thermostability. On the other hand, reducing reaction time from 3 days to 1 day caused the decrease of the interlayer distance, surface area and thermostability, but the increase of pore size due to lower pillar density. Furthermore, the reaction at room temperature gave rise to the silica pillared layered niobic acid with a smaller interlayer distance and pore size, a slightly larger specific surface area and a lower thermostability.
作者 侯文华 汪学广 颜其洁 陈静
机构地区 南京大学化学化工学院 南京化工大学应用化学系
出处 《高等学校化学学报》 SCIE EI CAS CSCD 北大核心 1999年第11期1793-1794,共2页 Chemical Journal of Chinese Universities
基金 国家自然科学基金
关键词 层状铌酸 氧化硅 支撑 层柱材料 铌酸 Layered niobic acid, Silica, Pillaring
分类号 O643.36 [理学—物理化学]
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参考文献5

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同被引文献172

  • 1骆玉美,周萍.2,2-二苯基六甲基三硅烷脱苯基机理的研究[J].上海师范大学学报(自然科学版),1999,28(4):72-75. 被引量:1
  • 2杨亚辉,陈启元,尹周澜,李洁,粱胜.Fe^(3+)和Cr^(3+)掺杂对K_4Nb_6O_(17)光催化活性的影响[J].中国稀土学报,2004,22(5):647-650. 被引量:10
  • 3陈亚芍,侯文华,颜其洁.氧化铝柱层状镧钛酸盐的制备[J].无机化学学报,1995,11(4):399-403. 被引量:8
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  • 7Schaak R E,Mallouk T E.Prying apart ruddlesden-propper phases:exfoliation into sheets and nanotubes for assembly of perovskite thin films[J].Chem.Mater.,2000,12:3427.
  • 8Gopalakrishnan J,Vasodeva B.A2La2Ti3O10 (A=K or Rb,Ln= La or Rare earth):A new series of layered Perovskites exhibiting ion exchange[J].Inorg.Chem.,1987,26:4299.
  • 9Kooli F,Sasaki T,Mizukami F,et al.Characterization and acid properties of silica pillared titanates[J].J.Mater.Chem.,2001,11:841.
  • 10唐明扬.有机硅在抛光剂系列产品中的应用[J].有机硅材料及应用,1999,13(1):14-17. 被引量:2

引证文献3

二级引证文献17

高等学校化学学报
1999年 第11期

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