湛江师范学院学报
湛江師範學院學報
담강사범학원학보
JOURNAL OF ZHANJIANG NORMAL COLLEGE
2014年
3期
63-66
,共4页
韩冰%林三清%温新兰%夏加亮%徐春曼%宋秀美
韓冰%林三清%溫新蘭%夏加亮%徐春曼%宋秀美
한빙%림삼청%온신란%하가량%서춘만%송수미
二氧化硅微球%表面改性%氨基化
二氧化硅微毬%錶麵改性%氨基化
이양화규미구%표면개성%안기화
silica microsphere%surface modification%amination
二氧化硅微球表面的官能化改性进一步拓展了硅球的研究与应用。实验中用两种方法对二氧化硅微球进行氨基化改性。通过茚三酮显色反应确定了氨基的引入;比表面积对比结果表明,两种氨基化改性方法对硅球的粒径大小影响不大。
二氧化硅微毬錶麵的官能化改性進一步拓展瞭硅毬的研究與應用。實驗中用兩種方法對二氧化硅微毬進行氨基化改性。通過茚三酮顯色反應確定瞭氨基的引入;比錶麵積對比結果錶明,兩種氨基化改性方法對硅毬的粒徑大小影響不大。
이양화규미구표면적관능화개성진일보탁전료규구적연구여응용。실험중용량충방법대이양화규미구진행안기화개성。통과인삼동현색반응학정료안기적인입;비표면적대비결과표명,량충안기화개성방법대규구적립경대소영향불대。
The functionalized modification of the surface of silica microspheres expanded the research and application of silica materials.In this thesis,the silica microspheres with amide groups were modified by two different ways.The color reaction of ninhydrin certified the introduction of amino groups to the surface of silica microspheres.And the contradistinction of specific surface area of silica microspheres be-fore and after modification showed that both modified way did not influence the size of silica microspheres.