其次,我们研究了钙离子对电负性磷脂膜微纳米结构的影响。
The effect of Ca2+ ions on structure changes of negatively charged POPG/POPC bilayer was discussed.
提出了一种新颖的基于微纳米加工技术的MOEMS空间谐振腔结构,介绍了其工作原理和系统构成。
A novel MOEMS spatial resonator based on micro-nano machining technology was put forward. The principle and structure of the resonator were introduced.
材料与结构在微纳米尺度展现了许多不同于宏观尺度的新特征,纳米技术已经成为当前科学研究与工业开发的热门领域之一。
It has been revealed that materials and structures on the micro and nanometer scale demonstrate many characteristics different from their macro dimensions.
不同的纳米磁性高分子复合微球,因其结构不同,制备方法也各不相同。
Because of different magnetic polymer nanocomposite has different structure, so the preparation methods are also different.
结果表明:薄膜由非晶硅结构转变为微晶硅结构,微晶硅晶粒尺寸在纳米级。
The results indicate that the amorphous film gradually transfers into microcrystalline Si, and the grain size is nanometer order of magnitude.
针对微小结构几何量测量的需求,通过集成MEMS微触觉测头和纳米测量机构建了高精度的测量系统。
According to dimension measurement requirement of micro structure, a measurement system combined by MEMS micro tactile probe and nanomeasuring machine is constructed.
微纳米核壳结构材料作为纳米 材料的延伸,已在生物、医学、化工与电子等众多领域被广泛研究和应用。
With the booming of Nanotechnology, the applications of nano-scale materials are mainly in the industry of Electronic Engineering, Biologic Engineering, Medicine Science and Aerospace.
本发明属于纳米生物材料领域,涉及磷酸钙纳米结构空心微球及其制备方法。
The invention belongs to the field of nano biomaterials and relates to a calcium phosphate nano-structure hollow microsphere and a preparation method thereof.
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.
本发明的单分散二氧化硅包覆的中空结构磁性微球及其制备方法属于磁性纳米材料领域。
The present invention is monodisperse silica coated hollow magnetic microsphere and its preparation process and belongs to the field of nanometer magnetic material technology.
金刚石成核很可能是纳米石墨微晶转化为金刚石晶核的结构相变过程。
It is likely that diamond nucleation is a phase transformation process from nano-graphite into nano-diamond.
结果表明:快速凝固不仅使合金组织细化,形成微纳米晶,并能使组织和相结构发生变化。
The results show that the grains have been refined after rapid solidification processing, and the micro-nanocrystalline grain are formed.
结果表明:快速凝固不仅使合金组织细化,形成微纳米晶,并能使组织和相结构发生变化。
The results show that the grains have been refined after rapid solidification processing, and the micro-nanocrystalline grain are formed.
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