The thickness dependent grown time and quality of the PBG of colloidal crystal were studied in this work.
研究了样品池的厚度对大面积胶体单晶的形成速度和质量的影响。
The 3d colloidal crystal beads could be used as the stable microcarriers for coding according to their stable ordered structure.
制得的三维胶体光子晶体微球结构有序稳定,可用作性能稳定的编码载体。
The colloidal crystal has the advantages of easy-controlled structure, high quality of the colloidal crystal and short preparation period.
这种胶体晶体具有结构易控制、胶体晶体质量高和制备周期短的优点。
Polystyrene and silica colloidal crystal multilayers with controlled thickness are fabricated quickly by the vertical deposition method at certain temperature and humidity.
通过控制温度和湿度,用垂直沉积法快速制备出了不同厚度的高质量二氧化硅和聚苯乙烯胶体晶体薄膜。
A summarization of the self-assembly of the colloidal crystalline and a classified introduction and developing trend of the photonic crystal in hydrogel were proposed in this paper.
本文概述了胶体晶体自组装并对该类凝胶光子晶体进行了分类介绍并对其发展趋势进行了评述和展望。
Three dimensionally (3D)-ordered macroporous materials of bovine serum albumin (BSA) and fluorescein isothiocyanate (FITC) labeled BSA were prepared by means of colloidal crystal as template.
用胶体晶体为模板制备了牛血清白蛋白和异硫氰基荧光素标记的牛血清白蛋白的三维有序大孔材料。
One of the effective ways to fabricate photonic crystal is the method of self-assembly: obtaining colloid crystal from sub-micrometer colloidal spheres.
将亚微米级单分散颗粒实现三维有序聚集组装成胶体晶体是制备光子晶体的方法之一。
The invention relates to a method to prepare composite band-gap colloidal photonic crystal film through adopting an ink-jet printing method.
本发明涉及使用喷墨打印方法制备复合带隙胶体光子晶体膜的方法。
We report herein about the investigation on porous silica coatings prepared from colloidal silica solution on optical glasses and KDP crystal substrates.
本文报道利用二氧化硅微粒胶体溶液在玻璃和KDP晶体基质上制备多孔二氧化硅薄膜。
The director deformation caused by a charged colloidal particle suspended in a nematic liquid crystal is studied.
研究悬浮在向列相液晶中带电胶粘引起的指向矢形变。
Quartz Crystal Microbalance (QCM) was also used to measure the transferred colloidal quantity for Ag nanoparticles.
并用石英晶体微天平(QCM)宣检测了银纳料粒子的相转移量。
Quartz Crystal Microbalance (QCM) was also used to measure the transferred colloidal quantity for Ag nanoparticles.
并用石英晶体微天平(QCM)宣检测了银纳料粒子的相转移量。
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