2) mesoporous material
介孔材料
1.
Preparation nano TiO_2 mesoporous material by soft template;
软模板法制备纳米TiO_2介孔材料
2.
Dynamic modeling and simulation of the mesoporous material and acid red 12~# dye molecule system;
介孔材料-酸性红12染料分子体系动力学模型的建立和模拟
3.
Synthesis, Characterizations and Catalysis of Al-SBA-15 and Fe-SBA-15 Mesoporous Materials;
Al-SBA-15和Fe-SBA-15介孔材料的合成、表征及催化性能研究
3) mesoporous silica
介孔材料
1.
Synthesis and characterization of SBA-16-type mesoporous silica under a moderately acidic condition;
弱酸性条件下SBA-16型二氧化硅介孔材料的合成与表征
2.
The primary objective of this research is to examine the feasibility of using a new kind of anionic-templated mesoporous silica (AMS) as a drug delivery system, and to characterize the factors affecting adsorption and release into and from this material.
本文旨在探讨利用一类新型的以阴离子表面活性剂为模板的二氧化硅介孔材料(AMS)作为药物输送体系的可行性,研究药物在这种介孔材料中的吸附/释放特性及其影响因素。
4) mesoporous
介孔材料
1.
Recently,with the development of nanomaterials sciences,mesoporous materials have been becoming the research highlight because of their special physics and chemistry properties.
近年来,随着纳米材料科学的发展,介孔材料的独特性质越来越受到人们的重视。
2.
Nanometric TiO2-ZnO compound mesoporous material was prepared by microwave irradiation self-assembled method, using ZnSO4 and TiCl4 as raw material and nanometric carbon black as template.
以 TiCl4, ZnSO4?7H2O 为原料, 尿素为沉淀剂, 利用可溶性淀粉大分子链的空间位阻效应和高分子网络的阻隔作用, 以纳米级碳黑为模板, 采用微波加热、均相沉淀法合成出了一系列纳米 TiO2-ZnO 复合介孔材料。
3.
In this study , zirconium oxophosphate mesoporous molecular sieve with new structure was synthesized by hydro-thermal synthesis in the presence of zirconium sulfate and triple quaternary ammonium salt as row material and structure guide agent , respectively .
XRD测试结果表明:合成物的特征衍射峰出现在2?左右,利用布拉格方程计算出介孔材料的孔径尺寸在2。
5) mesoporous materials
介孔材料
1.
Research progress on fractal characterization of mesoporous materials;
介孔材料分形表征的研究进展
2.
The latest research development of mesoporous materials and their application prospect;
介孔材料的应用前景及其研究进展
6) HMS mesopore material
HMS介孔材料
补充资料:介孔
根据国际纯粹与应用化学协会(iupac)的定义,孔径小于2纳米的称为微孔;孔径大于50纳米的称为大孔;孔径在2到50纳米之间的称为介孔。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条