非晶晶化法是制备纳米晶体材料的方法之一。
It is well known that nanocrystalline materials can be prepared by crystallization of glasses.
国家攀登计划(纳米晶体材料)(批准号:)资助的课题。
Project supported by the National "Climbing" Program for Nanocrystalline Materials.
综述了纳米晶体材料和纳米碳管材料的力学性能研究的最新进展。
In this paper, the last research progress in the mechanical properties of nanocrystalline materials and carbon nanotubes is reviewed.
这种技术将纳米晶体材料的优异性能与传统工程金属材料相结合,在工业应用上具有广阔的应用前景。
This kind of technique combine together the excellent function of nanocrystal materials with the traditional engineering metal materials, and have very widely applied foreground in the industry.
这位教授与柯达公司、海军科学研究实验所以及康纳尔大学的研究人员一起发现了这种新的纳米晶体材料。
The professor worked with Kodak engineers and researchers at the Naval Research Laboratory and Cornell University to discover the non-blinking nanocrystals.
量子点是一些微型晶体,材质为几十个原子宽,或几纳米(一米的十亿分之一)宽的半导体材料。
Quantum dots are tiny crystals of semiconducting material just a few tens of atoms, or a few nanometres (billionths of a metre), across.
林教授是纳米结构光子学的专家和光子晶体领域的先锋人物,他说这一新的涂层材料可以运用于几乎所有的光伏材料上。
Professor Lin, an expert in nanostructure photonics and a pioneer in the field of photonic crystals, says that the new coating could be applied to just about any photovoltaic material.
林教授是纳米结构光子学的专家和光子晶体领域的先锋人物,他说这一新的涂层材料可以运用于几乎所有的光伏材料上。
Lin, an expert in nanostructure photonics and a pioneer in the field of photonic crystals, says that the new coating could be applied to just about any photovoltaic material.
纳米晶体是由一种称为碲化镉的半导体材料所组成,这种材料对光线的吸收效果非常强。
The nanocrystals consist of a semiconducting material called cadmium telluride, which is a very strong absorber of light.
当晶体大小大约为3纳米(1纳米等于10亿分之一米)时,天然丝材料具有超强的强度与延展性特征。
When the crystal size is about three nanometers (billionths of a meter), the material has its ultra-strong and ductile characteristics.
由于纳米材料催化剂具有独特的晶体结构及表面特性,因而其催化活性和选择性大大高于传统催化剂。
Nanometer catalyst material had peculiar crystallographic structure and surface property, thus its catalytic activity and selectivity were too much greater than these of traditional catalyst.
因此,合成组成和形态类似于骨矿物质的纳米类骨磷灰石晶体是制备高性能复合骨修复材料的前提。
So, it is the premise for the preparation of such a composite to prepare bone-like apatite crystals with similar composition and morphology to bone apatite.
结果:复合材料中的羟基磷灰石为类似于自然骨矿物相的弱结晶含碳酸纳米晶体,并均匀分散于有机相壳聚糖中。
Results:The HA synthesized here was poorly crystalline carbonated nanometer crystals and dispersed uniformly in chitosanp hase and there was no phase-separation between the two phases.
研究了纳米晶体铜材料的压制工艺条件对其相对密度和显微硬度的影响,并用正电子湮没寿命谱、扫描电镜和热重分析仪对其微观结构进行了表征。
The influence of relative density and microhardness on pressing parameter of nanocrystalline Cu was studied, and its microstructure was characterized by PAS, SEM and TG.
采用光学显微镜、XRD、SEM、TEM、SAED等手段,表征纳米材料的尺寸、形貌、组成和晶体结构。
Optical microscopy, XRD, SEM, tem and SAED are used to systemically characterize the morphology and structure of silver nanostructures.
采用光学显微镜、XRD、SEM、TEM、SAED等手段,表征纳米材料的尺寸、形貌、组成和晶体结构。
Optical microscopy, XRD, SEM, tem and SAED are used to systemically characterize the morphology and structure of silver nanostructures.
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