纳米金属微粒的颜色和金属块不一样。
Nanoparticles of metal do not have the same colour as that metal does in bulk.
纳米金属多层膜由于其巨磁电阻性能而受到人们的重视。
Nanometer multilayer metal films have been emphasized for their grand magnetic resistance.
最后,讨论了纳米金属薄膜的平面和跨平面的热传导率的表征方法。
Lastly, characterization of both in-plane and cross-plane thermal conductivities in nano metal films with nanosecond laser spectroscopy will be demonstrated.
应用纳米技术制备的纳米金属燃料已应用到社会生活和高科技领域。
Nano - metal fuel prepared by nanometer technology has been applied in social life and high-tech field.
微米级金属粉对AP高温分解反应的催化作用明显小于纳米金属粉。
The catalytic effects of micron meter metal powders on the higher temperature decomposition of AP are less than that of nanometer metal powders.
应用纳米技术制备的纳米金属燃料已应用到社会生活和高科技领域。
Nano-metal fuel prepared by nanometer technology has been applied in social life and high-tech field.
纳米金属粉对AP/HTPB推进剂的热分解同样具有一定的催化效果。
Nanometer metal powders also have catalytic effects on the thermal decomposition of AP/HTPB solid propellant.
粉体的团聚问题是纳米金属氧化物制备过程中不可忽视的一个重要问题。
Flour agglomeration is an important problem not be ignored for the preparation of metal oxide nanoparticles.
本论文采用均匀沉淀法、液-固相法制备了纳米金属镍及纳米氧化镍粒子。
In this thesis, nickel oxide (NiO) and nickel metal (ni) nanoparticles were prepared by methods of homogeneous precipitation and thermal decomposition of nickel oxalate.
世纪之交高韧性纳米陶瓷、超强纳米金属等仍然是纳米材料领域重要的研究课题;
In the beginning of this century , the high tenacity nano ceramics and the superstrong nano metal are still the important study subject of the nanomarerial field ;
认为固体推进剂用纳米金属氧化物作催化剂,可获得优于非纳米催化剂的燃烧性能。
It is considered that solid propellant with nanometer metal oxide catalysts has the better combustion properties compared with non-nanometer catalysts.
从而使纳米颗粒的吸附特性得到大大改善,有利于纳米金属颗粒的催化性能的提高。
Thus, the present invention improves the adsorption characteristic of nanometer particles greatly and raises the catalytic performance of nanometer metal particles.
现报道以淀粉类生物多糖作为模板,来引导纳米金属及无机材料合成的最新研究进展。
The development and the state-of-art of green synthesis and stabilization of metal and inorganic material via biological polysaccharide template are also reviewed.
实验结果表明:用该法可以制备出纳米金属镍,粒度小,产品流动性、热稳定性能好;
The results suggest that the nano Ni powder having good flowability and thermostability can be prepared by the method described in this study.
进一步沉积金属后,通过去牺牲层工艺去除球体,可得到呈六角形分布的纳米金属列阵结构;
After a single layer of metal was deposited on the top of the assembled structures and the lift-off was taken, the nano-metal array with the hexagon shape was achieved.
所述的具有金属铜表面的基底材料是指金属铜片以及表面镀了一层纳米金属铜的导电玻璃ito。
The base material provided with metallic copper surface is a sheet copper and conductive glass ITO with metallic copper plated on surface.
虽然纳米金属丝尚属试验阶段,但是在未来他们绝对会成为环境和健康探测器上某一微小电路或者其他分子机器。
While nanowires are still in an experimental stage, they may one day be used to link extremely small circuits in environmental and health sensors or other molecular machines.
研究结果显示了纳米金属磁性多层膜材料的微结构空间位置相关性和电磁输运过程奇异的非定域特性。
The microstructure space dependence and non-localization electromagnetic transmission were found, which demonstrated the mesoscopic characteristic of the nanometer magnetic multilayers materials.
本论文的研究工作和成果如下:1。利用离散偶极子近似方法研究了不同形状纳米金属颗粒的光学性质;
The main research works and conclusions are as following:1. Optical properties of different shape metal nanoparticles are simulated by the discrete dipole approximation (DDA) method.
为了研究电爆炸丝方法产生纳米金属氧化物粉末的技术特点,设计了金属丝电爆炸和粉末收集的实验装置。
The experiment equipment for research on the technology of producing nonosize mental oxide powders by electrical exploding wire(EEW) was designed.
该研究揭示了纳米金属微粒在自然界中的存在,丰富了地球化学理论,对寻找和识别隐伏矿床具有重要应用价值。
The ordered crystal structure indicates the existence of nanometer metal particles in the nature and provides direct observation evidence for deep-penetrating geochemistry.
这种超导缺口存在于最小只有四个镓盐分子的纳米金属线上有所体现,但只有三个镓盐的纳米金属线却没有这种特性。
This superconducting gap exists in the smallest molecules of only four nano-metal gallium reflected online but only three gallium salt nanowires without this feature.
这种超导缺口存在于最小只有四个镓盐分子的纳米金属线上有所体现,但只有三个镓盐的纳米金属线却没有这种特性。
This superconducting gap exists in the smallest molecules of only four nano-metal gallium reflected online, but only three gallium salt nanowires without this feature.
这种超导缺口存在于最小只有四个镓盐分子的纳米金属线上有所体现,但只有三个镓盐的纳米金属线却没有这种特性。
This superconducting gap was found in nanowires with as few as four salt molecules, but not in nanowires that were only three molecules long.
光与纳米金属复合结构相互作用产生的新现象和实现的新功能,在微纳传感探测、纳米光子器件及其集成等纳米光子学领域具有良好的应用前景。
The interactions of the light and metal composite nanostructures generate new phenomena and realize new function, which has potential applications in the nano-optics field.
光与纳米金属复合结构相互作用产生的新现象和实现的新功能,在微纳传感探测、纳米光子器件及其集成等纳米光子学领域具有良好的应用前景。
The interactions of the light and metal composite nanostructures generate new phenomena and realize new function, which has potential applications in the nano-optics field.
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