There is few report about free-standing nano-porous membranes.
而关于自支持多孔交替沉积膜的报道还为数不多。
The measurement results show the aerogels had nano-porous microstructure and hydrophobic property.
测量显示,所得样品具有纳米多孔结构,且有较好的疏水特性;
Aerogels are low donsity nano-porous non-crystalline solids whose structures can be controlled through preparation. They have numerous applications because they have many special properties.
气凝胶是一种结构可控的新型轻质纳米多孔性非晶固态材料,具有许多特殊性质,因而蕴藏着广阔的应用前景。
The fantastic phase behavior of confined fluids is an important factor to the application of porous nano-materials in chemical engeneering and other fields.
该复杂体系内流体分子表现出的丰富的相态和奇异的行为是纳米介孔材料在化学工业及其他相关工业中广泛应用的重要原因。
Such a porous structure can be employed to serve as the templates for nano sized materials.
这种多孔结构可以用作制备纳米材料的模板。
When ordered nano-pore array structure was formed on the anodized alumina, the porous alumina film will possess much more superiority than nano material prepared by others ways.
当氧化铝多孔膜的纳米孔排列成规则的阵列结构时,氧化铝多孔膜将具有许多其它纳米材料无法比拟的优势。
The spectra analysis showed that porous silicon is the material with nano crystal structure, and photoluminescence of PS can be explained by the model of quantum restriction effect.
对不同实验条件下所得到的多孔硅的拉曼光谱进行了分析,确认了多孔硅是具有纳米晶结构特征的材料,肯定了量子限制效应在多孔硅光致发光中的作用。
Current frontier researches on nano-materials and porous materials provide new ideas and approaches for the design and the fabrication of new absorbing materials.
而当前纳米材料和多孔材料的前沿研究为新型吸波材料的设计和制备提供了新的思路和途径。
The porous nano-structure is used as a bonding layer, and thermocompression bonding can be realized at lower temperature and pressure due to the nano-scale effect.
利用该多孔纳米结构作为键合层,由于纳米尺度效应,可以在较低的温度和压力下实现热压键合。
The invention discloses a nano-structure orderly porous thin film gas-sensing element and preparation method.
本发明公开了一种纳米结构有序多孔薄膜型气敏元件及其制备方法。
Results indicate that the micro - and nano-scale porous structure together with the grafted hydrophobic alkyl long chains endows the aluminum alloy surface with the superhydrophobic property.
结果表明:所制得的超疏水表面是由微-纳“多孔”结构和疏水烃基长链所共同赋予的。
Results indicate that the micro - and nano-scale porous structure together with the grafted hydrophobic alkyl long chains endows the aluminum alloy surface with the superhydrophobic property.
结果表明:所制得的超疏水表面是由微-纳“多孔”结构和疏水烃基长链所共同赋予的。
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