本文综述了近年来有序大孔材料的制备及应用。
This article presents an overview on preparation and application of macroporous materials.
有序大孔材料作为高效吸附和分离材料所具有的独特性能逐渐被人们所认识。
As a high performance adsorption and separation material, ordered macroporous materials were found to exhibit many unique properties.
当这些三维的有序大孔材料具有孔维度和可见光的波长相当时,它们就可以作为光子带隙和带阻。
When these three-dimensionally ordered macroporous materials have pore dimensions comparable to the wavelength of visible light, they are of interest as photonic band gaps and optical stop-bands.
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。
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.
海泡石是一种新型的催化材料,具有大的比表面和独特的孔结构。
Sepiolite is a new catalytic material with a high specific surface area and unique porous structure.
本文采用氨水-碳酸铵混合溶液作沉淀剂,通过添加聚乙二醇(PEG)和聚乙烯醇(PVA)制备了高比表面积,大孔容的低铈型储氧材料。
In this dissertation, a series of high specific surface area, large pore volume and low Ce content OSMs were precipitated with mixed ammonia-ammonium carbonate solution, and assisted by PEG and PVA.
本研究利用介孔材料本身所固有的比表面积大、吸附性能强等特殊结构特征,将之应用到吸附去除苯酚有机污染废水。
For the big specific area and powerful adsorption capability of mesoporous materials, it can be used as adsorbent to treat the phenol-containing wastewater.
本论文结合先驱体转化技术和模板技术,成功制备了一系列有序大孔多孔材料,把多孔材料扩展到非氧化物陶瓷领域。
In this study, a series of ordered macroporous non-oxide ceramics were successfully fabricated for the first time by combining template and preceramic polymer techniques.
实验结果表明,XDA-1型大孔树脂对甘草黄酮的动态吸附率为92.18%,动态解吸率为83.73%,是一种较好的分离甘草黄酮的树脂材料。
The results showed XDA-1 resin was preferable for separating licorice flavonoids with the dynamic adsorption and desorption ratio being 92.18% and 83.73%, respectively.
在低孔隙率胶凝材料中,大量闭合孔的存在使压汞法出现大的“损失孔隙”。
A great number of the "close pores" are present in low-porosity cementitious materials, which can cause the mercury intrusion method to lose the "missing porosity".
介孔空心微球具有大的空心腔体和壳体上小的介孔结构,使得介孔空心微球结构材料作为一种新型功能材料有着广阔的应用前景。
There are micropore and mesopore in mesoporous hollow sphere, which give it potential applications in many fields as a new kind of functional material.
本发明羟基磷灰石纳米空心材料粒径小,孔体 积和表面积大;
The nanometer-level hollow hydroxylapatite material produced by the method is small in particle size, large in pore volume and surface area;
无机介孔材料因其具有大的比表面积、有序的孔道结构以及可调变的孔径,目前已成为催化领域研究热点之一。
Because of the large surface area and uniform pore size, the inorganic mesoporous material becomes the hot topic of research in catalysis.
无机介孔材料因其具有大的比表面积、有序的孔道结构以及可调变的孔径,目前已成为催化领域研究热点之一。
Because of the large surface area and uniform pore size, the inorganic mesoporous material becomes the hot topic of research in catalysis.
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