Nanocrystals, also known as quantum dots, are semiconducting particles with a diameter of a few millionths of a millimeter.
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。
The size of nanocrystals was controlled by heating time .
纳晶的尺寸可通过退火时间来控制。
Nanocrystals have low heat stability for its high surface energy.
纳米晶粒的表面能很大,这导致它的热稳定性不好。
Reviewed was the recent research on rare earth doped Y2O3 nanocrystals.
总结了近几年稀土掺杂y2o 3纳米晶发光材料的研究工作。
The host materials that embrace nanocrystals possess exceptional physical properties.
纳米晶的出现使得基体材料具有特殊的物理性质。
Spherical and dendritic Bi nanocrystals were prepared by ultrasonic dispersion method.
用超声分散法制备了球形与树枝状铋纳米晶体;
One-dimensional A1N nanocrystals were synthesized by reacting between Zn and ammonia gas.
采用铝粉与氨气在等离子体中的反应,获得了一维结构纳米A1N。
Due to quantum confinement effect, band gap of semiconductor nanocrystals (NCs) is dependent on the particle size.
由于量子限域效应,半导体纳米晶的能带宽随粒子大小而改变。
The nanocrystals consist of a semiconducting material called cadmium telluride, which is a very strong absorber of light.
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。
Nanocrystals, also known as quantum dots, are semiconducting particles with a diameter of a few millionths of a millimetre.
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 are very small. That's why when we spread them out in a coating on the window, you don't see anything," Milliron says.
迪莉娅·米莉蓉告诉记者:“纳米结晶十分微小,这就是我们将纳米结晶喷洒在窗户上,而你有看不到他们的原因。”
One of the challenges of this technology is the difficulty of coupling two of the NV centers in separate nanocrystals of diamond.
这种技术的其中一个挑战便是耦合分隔开的两个纳米金刚石晶体中的两个NV中心。
This "delocalization" allows electron transfer from the nanocrystals to an electron-accepting material placed nearby, such as TiO2.
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。
The results showed that the implanted silicon ions have no influence on the top Si but created Si nanocrystals (clusters) in the BOX.
研究结果表明,硅离子的注入并未对顶层硅的性能产生明显的影响,对BOX层的影响主要是产生了硅纳米团簇。
Semiconductor nanocrystals have unique optical and electrical properties, due to quantum size effect and dielectric confinement effect.
半导体纳米晶由于量子尺寸效应和介电限域效应使它们具有独特的光致发光性能。
The good catalytic effects indicate these flower-like nickel 3d nanocrystals are likely to be applied as a better catalyst in the future.
良好的催化性能表明,这种镍三维纳米结构将来很可能成为一种优异的催化剂。
This symmetric growth mode is induced by the shape changes in copper nanocrystals during catalyzing the chemical vapor deposition of acetylene.
铜纳米粒子在催化纤维的生长过程中,经历了一个重要的形状变化过程,即由初始的不规则形状变成了规则的多面体形状。
Their patented technology is based on inks containing tiny, semiconducting nanocrystals, which can be printed directly onto a variety of surfaces.
他们的这项专利技术基于印刷生产所使用的墨汁。这些墨汁含有微小的半导体纳米晶,可以直接印刷在各种物体的表面。
Brandon and his colleagues discovered that by depositing multiple layers of nanocrystals they can fill in any defects formed during the drying process.
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。
The liquid synthesis of nanocrystals titania at low temperature, due to avoiding the sintering process, brings superior physical and chemical properties.
低温液相合成晶态纳米二氧化钛由于避免了高温煅烧过程,可望赋予其更优越的特性。
In the framework of the colloidal chemistry approach, high quality nanocrystals of different II-VI and III-V semiconductor materials can now be obtained.
在胶体化学进展的框架下,现已获得不同II-VI型和III-V型半导体材料的高质量纳米晶。
The professor worked with Kodak engineers and researchers at the Naval Research Laboratory and Cornell University to discover the non-blinking nanocrystals.
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。
Quantum dots (QDs), also known as semiconductor nanocrystals, have drawn significant attention for their potential as fluorescent probes in biological field.
量子点,又叫做无机纳米晶,由于其作为荧光探针在生物领域中的巨大应用前景,已引起生物学家们的广泛关注。
His interests include conjugated polymers, nanocrystals, ultrafast pulsed lasers, nonlinear optics, light-matter interactions, and object-oriented programming.
擅长的领域包括:共轭聚合物,纳米晶,超快脉冲激光器,非线性光学,光与物质的相互作用,面向对象程序设计等。
Associated with the molecular statics relaxation method, a computer modelling technique was provided for the study of structural characteristics of nanocrystals.
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。
When researchers experimented with Fox's modified nanocrystals, they were able to disperse the nanocrystals in scaffolds for dental regenerative medicine purposes.
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。
Colloidal perovskite nanocrystals can overcome the limitations of traditional inorganic quantum dots and achieve slow hot carrier cooling and efficient extraction.
钙钛矿型纳米晶可以克服传统无机半导体量子点的某些缺陷,以达到热电子的缓慢冷却和高效提取。
Colloidal perovskite nanocrystals can overcome the limitations of traditional inorganic quantum dots and achieve slow hot carrier cooling and efficient extraction.
钙钛矿型纳米晶可以克服传统无机半导体量子点的某些缺陷,以达到热电子的缓慢冷却和高效提取。
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