本发明的一种超顺磁性介孔二氧化硅复合球及其制备方法属于核壳型磁性纳米粒子的技术领域。
A superparamagnetism mesoporous silicon dioxide composite ball of the present invention and manufacture method thereof belong to nucleocapsid type technology field of magnetic nano particle.
本文以二氧化硅为壳层材料,以纳米铁以及羰基铁粒子为核层材料,制备一种新型的吸收剂粒子。
This text attempts to regard silica as shell materials, regard nanometer iron and carbonyl iron particle as core materials to prepare a kind of new-type absorbent.
作者介绍了目前以无机纳米粒子为芯核的核壳材料的制备现状,以及复合技术的发展趋势。
In this paper, the progresses on preparation of core-shell materials as well as the trend of composite technology were introduced.
该核壳纳米粒子的研究人员开发的布朗大学和橡树岭国家实验室这些问题都解决了。
The core-shell nanoparticle developed by researchers at Brown University and Oak Ridge National Laboratory addresses both of these problems.
本文的主要工作围绕着将新型的金-聚合物核壳结构纳米粒子应用于湿度敏感器件展开。
The research on how to put these core-shell nanocomposites into new nano devices application will be a focus in the future.
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.
磁性纳米复合粒子具有典型的核壳结构。
The magnetic nano-composite particle has a typical core-shell structure.
通过表面改性(如制备核壳结构的纳米粒子)可以使其获得更多特殊的性质。
By modifying their surfaces such as preparing core-shell nanoparticles, many special properties can be obtained.
通过表面改性(如制备核壳结构的纳米粒子)可以使其获得更多特殊的性质。
By modifying their surfaces such as preparing core-shell nanoparticles, many special properties can be obtained.
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