采用溶胶-凝胶法在玻璃表面制备出透明的憎水性纳米复合薄膜。
Transparent nano composite film on the surface of glass of hydrophobic property is prepared with sol-gel processing.
纳米复合薄膜材料由于具有传统复合材料和现代纳米材料两者的优点,成为重要的前沿研究领域之一。
Recently, nano-composite film materials have been extensively studied because it has both advantages of common composite materials and modem nano materials.
这种薄膜的材料是金属纳米粒子,它们被排列在透明的复合矩阵中。
The material is composed of metal nanoparticles embedded in a transparent composite matrix.
本发明公开了一种二维有序有机半导体复合纳米薄膜及其专用基底与它们的制备方法。
The invention discloses two-dimensional ordered organic semiconductor compound nanometer film and the special-purpose substrate thereof, and the preparation method thereof.
结果表明,复合结构由普通多晶金刚石薄膜和纳米金刚石薄膜组成,薄膜的表层结构体现了纳米金刚石的特征。
The result shows that the surface of composite film is very smooth, and the dielectric properties are close to the conventional polycrystalline diamond films.
具有纳米厚度的皂盐复合薄膜可望在气浮轴承、电接触开关、微型机械等装置中得到应用。
The soap salt and phosphazene compound lubricating film with nanometer thickness is expected to be applied in an air bearing, an electric touch switch, a micromachine and other devices.
用热蒸发和磁控溅射的物理镀膜方法和溶胶凝胶化学涂布的方法相结合制备了有机和无机复合纳米光学变色薄膜。
Physical method, including thermal evaporation and magnetic sputtering, and chemical coating method are applied to prepare organic-inorganic composite chromotropic film.
本文从薄膜和块体材料两个方面介绍了近年来有关纳米复合材料力学性能的研究成果。
The research results on the mechanical properties of nanocomposites including films and bulk materials are reviewed in the present paper.
最后介绍了在计算机控制之下金刚石厚膜,纳米金刚石薄膜以及复合膜的生长。
Finally, the growth of diamond thick film, nano-diamond thin film, and composite diamond film under the control of computer were explained.
以该稳定分散的纳米片溶胶为原料,通过层层自组装法制备PEI/氧化铌复合薄膜。
Making the stable dispersed nano-sheets suspensions as the raw material, we prepared the PEI/niobium oxide thin films through layer by layer method.
复合薄膜具有欧姆特性,其电阻值随纳米银掺杂量的增加而增加,符合麦克斯韦的有效介质模型。
The films have Ohmic contact property, whose resistance is increasing with the increase of Ag doping concentration, which matches the model of Maxwell's theory of effective media.
复合薄膜具有欧姆特性,其电阻值随纳米银掺杂量的增加而增加,符合麦克斯韦的有效介质模型。
The films have Ohmic contact property, whose resistance is increasing with the increase of Ag doping concentration, which matches the model of Maxwell's theory of effective media.
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