In Chapter 2, we have demonstrated a novel synthesis methodology for nanostructured materials.
在第二章节中,我们研发出一种合成奈米结构材料的新颖方法。
Nanostructured materials have unique properties in the aspects of hardness, strength, ductility and toughness.
纳米材料与常规材料相比在硬度、度、性等方面具有独特的性能。
Definition, manufacture, structure, properties and applications of nanostructured materials are briefly described.
简述了纳米材料的定义、制备、结构、性能和应用。
We gave a rational explanation for this phenomenon by using quantum effect and surface effect of nanostructured materials.
我们用纳米材料的量子效应和表面效应对蓝移现象进行了解释。
The last decade development of martensitic transformation in nanostructured materials and thermodynamic studies are reviewed.
概括了近十年来,纳米材料的马氏体相变和热力学研究的最新结果。
In recent years, unique mechanical properties of nanostructured materials motivated a worldwide interest to form nanostructured coatings.
近几年来,纳米结构涂层的热喷涂研究成为新的发展趋势。
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。
Nanostructured materials are expected to play a crucial role in the future technological advance in electronics, optoelectronics, and memory devices.
纳米结构材料在电子学、光电子学及存储器件等领域具有深远的应用前景。
The material properties of the nanostructured materials show remarkable improvement or deviation from the properties exhibited by the coarser grained material.
纳米结构材料的性能显示出显著的改进,与粗晶材料的性能有很大的差别。
Advances in electro-chromic technology using nanostructured materials have vastly improved the switching speeds, stability, and performance of display applications.
使用纳米结构材料的电致变色显示技术极大地改善了显示应用的转换速度、稳定性和性能。
The preparation methods and microscopic structure of nanostructured materials have been introduced in this paper. Furthermore, the applied prospect used in catalytic reaction was discussed.
介绍了纳米材料的制备方法及其微观性质,同时还对在催化反应中的应用前景进行了讨论。
This project focused on key problems and mechanisms in the design, synthesis, properties and applications of nanostructured carbon materials.
本项目重点对纳米炭材料的设计、合成、性能及其应用所涉及的关键科学问题进行深入研究和探讨。
This dissertation is mainly concerned with the magneto-optical properties of nanostructured magnetic fluid and its potential applications in photonic devices and materials.
本论文主要研究纳米磁流体的相关磁光学性质,并探讨其在光子器件和材料上的应用。
This dissertation is mainly concerned with the magneto-optical properties of nanostructured magnetic fluid and its potential applications in photonic devices and materials.
本论文主要研究纳米磁流体的相关磁光学性质,并探讨其在光子器件和材料上的应用。
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