It has been revealed that materials and structures on the micro and nanometer scale demonstrate many characteristics different from their macro dimensions.
材料与结构在微纳米尺度展现了许多不同于宏观尺度的新特征,纳米技术已经成为当前科学研究与工业开发的热门领域之一。
Nanomechanics deals with the mechanical problems of materials, apparatus and structures at nanometer scale.
纳米力学是研究纳米尺度材料、器件与结构的力学。
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。
The pore radius was in nanometer scale, with uniformity and high ratio of depth and radius, so it's ideal mask for one-dimension nanometer materials.
其孔径为纳米级且分布均匀,纵横比大,是合成一维纳米材料的理想模板。
Therefore, an effective method of evaluation is needed to characterize the mechanical properties of those materials on nanometer scale.
因此需要一种行之有效的评价方法来表征这些材料在纳米尺度上的力学性能。
Sufficient raw materials: It is easy to obtain the thermal fusion nanometer materials, conducive to large-scale production.
有充足的原材料:王博热聚能纳米材料,易于取得,可大规模生产。
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。
Nanometer scale semiconductor materials have been studied extensively in recent years because of their important applications in photovoltaic cell, sensing, optical emission and photocatalysis.
纳米半导体材料在光伏电池、光电传感器、光谱发射和光催化等方面有着重要的潜在应用价值,因此近几年来得到了广泛的研究。
The method adopts the nanometer tube Titanic acid as one of the raw materials, which is simple in technology, convenient to operate and is suitable for large-scale production.
本方法以纳米管钛酸为原料之一,方法简单,便于操作,适合大批量生产。
The method adopts the nanometer tube Titanic acid as one of the raw materials, which is simple in technology, convenient to operate and is suitable for large-scale production.
本方法以纳米管钛酸为原料之一,方法简单,便于操作,适合大批量生产。
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