模板帮助纳米微粒保持其形状。
因此科学家需要在金色纳米微粒中找到紫光源。
The scientists needed a source of violet light, and found it in the gold nanoparticles.
提及纳米微粒的改性技术和表征方法。
It also involves the methods of nanometer particle's modification and characterization.
封面故事:金属纳米微粒及有序晶体结构。
Cover Story: Nanoscale particles of metals and its ordered crystal structure.
探讨了智能微反应器制备纳米微粒的研究进展。
The Progress of the Preparation of nanoparticles with the intelligent microreactor has been introduced.
纳米微粒及纳米材料具有独特的性质和新的规律。
The nanometre corpuscle or nanometre material has its own special properties and new rules.
这些经设计的纳米微粒与泪液中的葡萄糖分子反应。
These engineered nanoparticles react with glucose molecules found in tears.
用透射电子显微镜(TEM)测量了银纳米微粒的平均粒径。
The mean diameters of sliver nanoparticle are measured by transmission electron microscopy (TEM).
当抗菌肽与某种物质混合时,抗生素就会变成纳米微粒的硅胶外壳。
When an AMP was combined with certain minerals, the antibiotic developed a coating of silica nanoparticles.
一旦和抗体进行捆绑后,纳米微粒可以识别并特异性捆绑癌症细胞。
When linked to an antibody nanoparticles recognize and bind specifically to cancer cells.
以及运用了类似碳纳米微粒团和碳涂层玻璃微球这样的低热传导率的吸光微粒。
And the use of light-absorbing particles with low thermal conductivity, such as agglomerates of carbon nanoparticles, and carbon coated glass micro-shells.
单分散纳米微粒比多分散纳米微粒具有更显著的性能,更适合于应用。
And monodisperse nanoparticles have remarkable performance compared with multidisperse nanoparticles and are fit for application.
纳米微粒分散在基体聚合物的连续相中成为聚合物系的纳米复合材料。
Nanometer microparticle is dissipated in a continuous phase of basic polymer. It becomes a nanometer compound of polymer system.
当金色纳米微粒收到肉眼不可见的更短波长的光照射时,它们将被激发并发出紫光。
When shorter wavelengths of light, invisible to the human eye, hit the gold nanoparticles, they get excited and start to glow violet.
挤出共混法通过熔融混炼聚合物和纳米微粒可加工成稳定的纳米复合材料。
Extrusion blending method can process a stable nanometer compounding material through melt-mixing polymer and nanometer particle.
不同粒径的银纳米微粒有不同程度的共振瑞利散射(RRS),但强度较弱。
Ag nanoparticles with different diameters have resonance Rayleigh scattering (RRS) with different intensities to some extent.
利用超声波和偶联剂处理的方法,制备了纳米微粒填充环氧树脂基复合材料。
Three kinds of nanoparticles were efficiently dispersed into the epoxy resin by using coupling agents and ultrasonic wave.
半导体纳米微粒因其非线性折射率高、响应时间快而在过去的十年里倍受关注。
Semiconductor nanoparticles, which own large nonlinear refractive index and fast response speed, have been extensively studied in the last decades.
载药纳米微粒是纳米技术与现代医药学结合的产物,是一种新型的药物输送载体。
The Drug loaded nanoparticle is a new technology produced by nanotechnology combined with modern medicine.
研究表明:纳米微粒效果良好,但他们的研究工作中仍有许多问题至今仍未解决。
The studies showed that they work, but there were still many unanswered questions about how and why.
金属纳米微粒的热力学性能不仅依赖于纳米微粒的尺寸,还依赖于纳米微粒的形状。
The thermodynamic properties of metallic nanoparticles not only depend on the particle size, but al - so depend on the particle shape.
根据熔解温度与结合能的关系,推导出了一个计算自由表面纳米微粒熔解温度的公式;
A formula has been derived to account for the melting temperature of free surface nanoparticles based on the relationship between the cohesive energy and the melting temperature of solids.
新型纳米微粒可以生物能源发光替代路灯的电力发光,它将一天二十四小时移除大气中的CO2。
The new nanoparticles could replace the electricity powered street light with biologically powered light that removes CO2 from the atmosphere 24 hours a days.
概述了铁氧铁磁性纳米微粒的一些基本知识,并就纳米颗粒型磁性材料的应用作了介绍。
The knowledges about magnetic ferrite nanoparticles and the USES of magnetic ferrite nanoparticles in technology are introduced.
结果表明,由于纳米尺寸效应,AZO纳米微粒的光电导性能要比本体azo颗粒好的多。
The results showed that the photoconductivity of AZO nanoparticles was improved greatly compared to that of bulk AZO due to nanometer size effect.
通过对生物矿化机理的模拟,已经合成了纳米微粒、有机-无机复合物、类生物矿物结构物质。
Based on the imitation on biomineralization, a lot of materials such as nanocrystal, organic-inorganic composite and hierarchical inorganic materials are fabricated.
当其结合纳米微粒后,该类物质能够进入到癌细胞中并摧毁它们或是让癌细胞成像以协助提供更精确的医疗程序。
When combined with the nanoparticles, the phytochemicals can enter cancer cells and destroy them or help image them for more accurate medical procedures.
我们现在正利用蜂毒素分子的无毒性部位将其他药物、靶向药物、或者成像药物与纳米微粒结合起来。
We are now using a nontoxic part of the melittin molecule to hook other drugs, targeting agents, or imaging compounds onto nanoparticles.
通过对新场气田地气测量分析,发现地气测量的纳米微粒金属元素在新场气田上方有明显的异常显示。
Geogas survey performed in the Xinchang gas field shows that there exist obvious anomalies of nano-particle metal elements over the gas field.
由于纳米微粒的小尺寸效应、表面效应和量子尺寸效应,使其在化学催化领域中呈现出十分优异的性能。
Owing to the small size effect, high surface effect and quantum size effect, nano particles exhibit excellent characters in catalyst fields.
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