The average pore diameter of the mesoporous materials is about 3-5 nm.
得到了平均孔径为3-5nm的介孔纳米材料。
In this paper recent research progress in mesoporous materials is reviewed.
对近年来介孔材料的最新研究进展进行了综述。
SBA-15 and HMS mesoporous materials have also been synthesized in large scale.
放大合成了SBA-15和HMS中孔材料供进一步研究使用。
The basic features and characteristics of mesoporous materials were introduced in this paper.
本文介绍了介孔材料的基本特性和表征方法;
Preparation of silica mesoporous materials in a thin film geometry was first reported in 1996.
以薄膜的形式仿生制备二氧化硅中孔材料于1 996年首次报道。
During the syntheses of ordered mesoporous materials, the removal of templates is an important process.
在其制备过程中,模板剂的脱除是十分重要的一个步骤。
Synthesis course of mesoporous materials and application of supercritical fluid technology in extracting templates were reviewed.
本文主要综述了介孔材料的合成过程及超临界流体技术在萃取模板剂方面的应用。
This paper reviews the synthesis, classification, formation mechanism, morphology control and application of mesoporous materials.
综述了介孔材料的合成方法、分类、形成机理、形貌控制和应用。
We have studied the effects of the ratio of surfactant to sodium silicate on the structures and properties of mesoporous materials.
研究了表面活性剂与硅源的比例对介孔材料的孔道结构、比表面积、孔径分布、孔体积等参数的影响。
In the synthesis process of mesoporous materials, large amount of templates had been used, so removing the template became the emphasis.
由于介孔材料在合成过程中使用了大量模板剂,因此模板剂的去除问题就成为研究的重点之一。
The results demonstrate that post-assembly is superior to in-situ incorporation during producing mesoporous materials doped by metallic element.
合成后组装法是制备金属掺杂介孔材料的较好途径。
As advanced nanostructured materials, mesoporous materials are high-performance materials in the field of catalysis, separation and nanotechnology.
有序介孔材料作为一种新型的纳米结构材料,在催化、分离、纳米技术、智能材料等领域有着广阔的应用前景。
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。
As novel functional materials, mesoporous materials had a series of unique advantages on structure, many science. Researchers showed great concern for them.
介孔材料作为一种新型的功能材料,在结构上具有一系列独特的优点,备受广大科学研究者的关注。
In this paper, mesoporous materials were used as the gelator to prepared gel electrolyte for DSSC. The characteristics of these gel electrolytes were investigated.
本文用有序介孔材料作为凝胶剂制备凝胶电解质,并对制备的凝胶电解质的电化学性能进行了研究。
For many applications, mesoporous materials should be not only controlled the nanometer scale of the pore structure but also controlled the micrometer scale of the morphology.
在很多应用中,不仅要求控制介孔材料纳米级的介孔结构,还要求控制其微米级的形貌。
For many applications, these mesoporous materials should be controlled not only on the nanometer scale of the pore structure but also on the micrometer scale of the morphology.
在很多应用中,不仅要求控制介孔分子筛的纳米级的介孔结构,而且要求控制其微米级的形貌。
This article reviews the application of surfactant in the synthesis of mesoporous materials and the influences on the synthesis route structures and performances of the mesoporous materials.
本文对各种表面活性剂在有序介孔材料合成中的应用作了综述,分析了各种表面活性剂对有序介孔材料的合成、结构、性能的影响。
Mesoporous molecular sieves have potential applications in adsorption, catalysis and separation, preparation of advanced materials, and molecular devices.
中孔分子筛在吸附、催化与分离以及化学组装制备先进材料和分子器件等方面具有潜在的应用价值。
Pillared layered materials are mostly mesoporous and they are noticed for the versatility in structure and property.
层柱材料由于结构和性能极易调变的性质已引起人们的广泛兴趣。
So, we can synthesize mesoporous hybrid materials with germanium element, this is a kind of new synthetic method.
所以,本论文采用锗元素来合成杂化材料底物,这是一种新的合成方法。
The article reviews recent research progress on the Host-Guest self-assembly system of ordered mesoporous nanoscale materials represented by MCM-41and HMS.
本文论述了以MCM-41和HMS为代表的有序介孔纳米材料的主-客体自组装体系以及它们在化学催化、环境保护、光学等领域的应用。
Synthesis of ordered mesoporous zeolite was an objective of scientist in this area for long time, but is still one of the most challenge projects in porous materials synthesis area.
合成有序介孔沸石是科学家长期努力的方向,也依然是多孔催化材料合成领域最具挑战性的课题之一。
The mesoporous material was modified to adjust its acidity, and said materials prior and post to modification was characterized by XRD and FT-IR.
对介孔材料催化剂进行酸性调变改性,并对改性前后的介孔材料催化剂进行脱烯烃效果对比及XRD和IR分析。
The M41S, HMS, MSU, and SBA silica based crystalline mesoporous molecular sieves are of great academic and practical importance in catalysis, absorptive separation technology, and materials science.
MSU和SBA等具有规则孔道结构的介孔硅基分子筛及其杂原子衍生物在多相催化、吸附分离及材料科学领域有重要的学术研究与工程应用价值。
The mesoporous carbon materials with different specific surface areas was prepared using SBA-15 as a template and sucrose as a carbon source under different carbonized temperatures.
以SBA - 15为模板,蔗糖为炭源,在不同的炭化温度下合成了不同比表面积的中孔炭材料。
The goal that mesoporous silica xerogels containing siliver had no negative effect on cell viability could be achieved by reducing the siliver content in materials.
通过细胞实验,研究含银介孔硅干凝胶材料的细胞相容性,结果显示:当银含量降低到一定程度时,该材料无细胞毒性。
These integrated features would make the as-obtained mesoporous TiO2 materials have attractive applications in areas of environmental purification, energy conversion and storage.
性能优异的介孔二氧化钛材料在环境净化、能量转换及储存等方面有着广泛的应用前景。
Since the synthesis of novel mesoporous silica SBA-15 materials, the materials have become a great demand in many research fields.
自从介孔分子筛s BA - 15首次合成出来,成为众多研究领域的一个研究热点。
Since the synthesis of novel mesoporous silica SBA-15 materials, the materials have become a great demand in many research fields.
自从介孔分子筛s BA - 15首次合成出来,成为众多研究领域的一个研究热点。
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