强辐射条件下核结构材料的辐照损伤行为,是核技术安全性的关键。
The irradiation damage behavior of materials under intense radiation is the key for nuclear technology.
论述了利用模板技术可以制备材料的类型及模板技术在核壳结构材料、空心微球材料、生物技术方面的新进展。
And discusses the class of prepared material, emphasizes on introducing new templating development in core-shell structure materials, censphere materials and biotechnology.
具有核壳结构的包覆型复合纳米材料是最近几年材料科学前沿的一个日益重要的研究领域。
The coated composite nano materials with core-shell structures have recently become an increasingly important research branch in materials area.
本发明属于生物分离材料技术领域,具体为一种具有核壳结构的磁性复合微球及其制备方法。
The invention belongs to the technical field of bioseparation material, in particular to a magnetic composite microsphere with nucleocapsid structure and a preparation method thereof.
由于稀有气体晶体原子保持了核外满壳层的电子结构,与其他晶体材料相比,原子间的相互作用非常简单。
The interaction between atoms in it are very simple contrasted with the other crystals, due to the full shell structure of the electron maintained by the atoms in rare gas crystal.
统一尺寸、结构上有序包覆的核壳型复合材料,具有高折射率以及独特的电磁、光学和机械性质。
Due to their uniform size and regularity in the structure, core-shell structure composite nanoparticles will exhibit unique properties in electromagnetism, optics and mechanism.
具有核壳结构的包覆复合粉体材料,兼有包覆层材料和被包覆粉末材料两种物质的优良性能,获得了更加均匀的组织结构和特殊功能。
Coated powder materials with particular core-shell structure have excellent properties of both core material and shell material, more homogeneous structure and particular functions.
这种结构可以产生单一纳米粒子无法得到的许多新性能,因而具有许多不同于核、壳材料的独特的光、电、磁、催化等物理和化学性质。
These structures present many new functions and particular optical, electric, magnetic, or catalytic properties which could not been obtained from single nanoparticles.
作为一种新型的材料,核-壳结构纳米复合材料由于其独特的结构、性质和巨大的潜在应用前景,引起人们广泛的研究兴趣。
As a new kind of material, core-shell structure nanocomposite materials have become the focus of intensive research owing to their distinctive geometries, novel properties, and potential applications.
核/壳结构复合纳米材料是具有特殊性能的功能材料,是由一种纳米材料通过化学键或其他相互作用将另一种纳米材料包覆起来形成的纳米尺度的有序组装结构。
The nanocomposite with core/shell structures is an ordered assembly system in which one nanomaterial is covered by another nanomaterial via chemical bond or other interactions.
核壳结构材料因其组成、大小、结构不同可以得到一些多功能的材料。
Core-shell structural materials because of its composition, size, and different structures can be made into multi-functional materials.
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.
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.
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