1) Inorganic nanoribbons
无机纳米带
2) Inorganic-organic hybrid nanobelt
无机-有机混杂纳米带
3) inorganic nanoparticles
无机纳米
1.
In order to resolve this problem,PAA were prepared though ultrasonic,and the inorganic nanoparticles the presence of two types: porous nanosilica and spherical nanosilica symmetrical redispersed in the solution PAA.
为解决这个问题,我们采用了超声机械共混法,使球型nano-SiO2和孔型nano-SiO2均匀分散在聚酰胺酸胶液中,按照一定工艺要求制备聚酰亚胺/无机纳米杂化薄膜。
2.
In order to resolve this problem,PAA were prepared though ultrasonic, and the inorganic nanoparticles the presence of two types:nano-Al_2O_3,porous nanosilica and spherical nanosilica symmetrical redispersed in the solution PAA.
为了解决这个问题,采用了超声机械共混法,使球型 nano-Al_2O_3, nano-SiO_2和孔型 nano-SiO_2均匀分散在聚酰胺酸胶液中,按照一定工艺要求制备聚酰亚胺/无机纳米杂化薄膜。
5) nano-inorganic substance
纳米无机物
1.
A new mixing modification method of soft PVC with nano-inorganic substances is introduced in this paper; by grafting reactions between the high-active-group of PVC and the hydroxy-groups and carbonxy-groups carried by nano carbon black, the conductivity and flexibility of the new conducting material will be greatly improved.
介绍采用纳米无机物对软质PVC共混改性的方法:在纳米炭黑细化表面处理工艺中,通过软质PVC 上的高活性端基与纳米炭黑上含有的大量羧基、羟基间的有效的接枝反应,使导电复合材料的电学和力学综合 性能得到改善。
2.
A new mixing modification method of soft PVC with nano-inorganic substances isintroduced in this paper;by grafting reactions between the high-active-group of PVC and thehydroxy-groups and carbonxy-groups carried by nano carbon black,the conductivity and flexibility ofthe new conducting material will be greatly improved.
介绍采用纳米无机物对软质PVC 共混改性的方法:在纳米炭黑细化表面处理工艺中,通过软质PVC上的高活性端基与纳米炭黑上含有的大量羧基、羟基间的有效的接枝反应,使导电复合材料的电学和力学综合性能得到改善。
6) inorganic nanotubes
无机纳米管
1.
In this paper, the synthesis of inorganic nanotubes is reviewed.
文章综述了近年来无机纳米管材料的合成途径和进展。
2.
In order to provide considerable insight into physical properties of inorganic nanotubes, such as carbon and boron nitride nanotubes, we studied electronic and thermal properties of inorganic nanotubes.
为了更为深入地了解碳、氮化硼等无机纳米管的物理性能,我们研究了无机纳米管的电、热学性质以及掺杂效应,得到了一些有意义的结果。
补充资料:无机
1.任其自然;没有心计。 2.没有机会﹑机遇。 3.化学名词。一般指除碳酸盐和碳的氧化物外不含碳原子的化合物。如无机肥料﹑无机盐等。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条