纳米晶体,也被称为量子点,是一种直径只有百万分之一毫米的半导体粒子。
Nanocrystals, also known as quantum dots, are semiconducting particles with a diameter of a few millionths of a millimeter.
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.
用超声分散法制备了球形与树枝状铋纳米晶体;
Spherical and dendritic Bi nanocrystals were prepared by ultrasonic dispersion method.
还描述了制备纳米晶体磷酸钙粉末或涂层的方法。
A method of producing a nano-sized crystalline calcium phosphate powder or coating is also described.
研究结果表明,纳米晶体线越细,其热膨胀系数越大。
The results show that the thinner crystal nano-wire has a larger thermal expansion coefficient.
纳米晶体磷酸钙可以是粉末形式或者在表面上的涂层形式。
The nano-sized crystalline calcium phosphate may be in the form of a powder or in the form of a coating on a surface.
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.
纳米晶体(也被称为量子点)是一些半导体粒子,其直径为几百万分之一毫米。
Nanocrystals, also known as quantum dots, are semiconducting particles with a diameter of a few millionths of a millimetre.
采用本方法制备的挤压十二面体金纳米晶体表面能较高,催化性能好。
The squeezed dodecahedral gold nano-crystal prepared by the method has the advantages of high surface performance and good catalytic property.
这一“离域作用”使得电子可以从纳米晶体传导到附近的电导体元件,例如TiO2。
This "delocalization" allows electron transfer from the nanocrystals to an electron-accepting material placed nearby, such as TiO2.
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.
通过紫外线光电子光谱和光学吸收的测量,研究人员测定了纳米晶体中电子的最低激发态能级。
By using UV photoelectron spectroscopy and optical absorption measurements, the researchers determined the energy of the lowest excited electronic states in the nanocrystals.
而正是这种均匀过渡的结构使纳米晶体上放射出的光子与吸收的光子数量能保持一致。
Thanks to the gradient, the stream of emitted photons is the same as the stream of absorbed photons.
当今市面上最好的芯片使用32纳米的平面晶体管,而下一代芯片将使用22纳米晶体管。
The best chips on the market today use planar transistors that are 32 nanometers in size. The next generation will use 22-nanometer transistors.
使用了纳米晶体墨汁,太阳能电池就可以连续生产,这样不仅增加了产量,而且生产成也会大大降低。
Using nanocrystal inks, they can be manufactured in a continuous manner, which increases throughput and should make the cells much cheaper to produce.
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.
采用直流电沉积法制备了纳米晶体镍,用TEM和X -射线衍射等方法研究镀镍层的微观结构。
Nanocrystalline nickel was synthesized by direct current electrodeposition. The microstructure of nanocrystalline nickel was studied by TEM and X-ray diffraction.
研究小组用铜代替了二分之一的铁,并用纳米晶体来制作所需要的化合物,在碳棒的底部穿上了化合物这件衣服。
They replace half the iron with copper, and make crystalline nanoparticles of the resulting compound, which they coat on a cloth-like carbon substrate.
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.
列维和他的同事们用原子力显微镜和两片绝缘体(镧氧化铝和锶钛氧化物),研制出了一枚纳米晶体管。
Using an atomic force microscope and two layers of insulators (lanthanum aluminum oxide and strontium titanium oxide), Levy and his colleagues created a nanoscale transistor.
但在加州伯克利市的劳伦斯·伯克利国家实验室,研究人员正在试验试验先进的纳米晶体技术来改进窗户。
But at Lawrence Berkeley National Laboratory in Berkeley, Calif., Windows are the focus of some cutting-edge research in nanocrystal technology.
结合分子静力学的原子弛豫技术提出了一个对纳米晶体的原子结构模型及性质进行研究的计算机模拟方法。
Associated with the molecular statics relaxation method, a computer modelling technique was provided for the study of structural characteristics of nanocrystals.
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.
在溶液干燥的过程中,布兰登及其同事要把形成中所遇到的问题记录下来,通过沉淀多层纳米晶体,最终发现了最适合的形式。
Brandon and his colleagues discovered that by depositing multiple layers of nanocrystals they can fill in any defects formed during the drying process.
当研究人员用福克斯的改进的纳米晶体进行实验时,他们能够将纳米晶体分散在支架结构中,达到牙科再生医学的目的。
When researchers experimented with Fox's modified nanocrystals, they were able to disperse the nanocrystals in scaffolds for dental regenerative medicine purposes.
新加坡和沙特阿拉伯的研究人员发现了一种更环保高效地生产纳米晶体的新方法。这种纳米晶体用于生物医药和生命科学领域。
Researchers from Singapore and Saudi Arabia have discovered a new way for greener, highly efficient production of nanocrystals for biomedical and life science sectors.
电池本身比较容易批量产,gratzel和其他人研制出了将纳米晶体太阳能电池阵列“印刷”到玻璃板和金属箔上的方法。
And the cells themselves should be easy to mass produce. Gratzel and others have developed methods for 'printing' arrays of nanocrystal solar cells onto glass panels and metal foils.
电池本身比较容易批量产,gratzel和其他人研制出了将纳米晶体太阳能电池阵列“印刷”到玻璃板和金属箔上的方法。
And the cells themselves should be easy to mass produce. Gratzel and others have developed methods for 'printing' arrays of nanocrystal solar cells onto glass panels and metal foils.
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