1) lopstick
['lɔpstik]
棒状树
2) nanorod
棒状
1.
The result indicates that the chloride ion has much influence on the formation of PbO nanorods.
通过在反应体系中添加NaCl,成功地制得了棒状PbO纳米粒子。
2.
Ferrous sulfate originates from the by product of titanium dioxide production is purified and used as raw material for preparation of α-FeOOH nanorods .
采用钛白工业副产硫酸亚铁为原料,经纯化处理后,用空气氧化法制备了棒状纳米α-FeOOH,并用XRD、SEM、TEM对样品进行了表征。
3) rod-like
棒状
1.
In this paper,the rod-like LDH,about 10~40 in ratio of length to diameter,well dispersed with uniform phase composition and high crystallinity,was prepared using hydrothermal crystallization method.
通过130℃水热晶化制备了长径比在10~40、分散性良好、相组成均一和高结晶度的棒状LDH颗粒。
4) rodlike
棒状
1.
Preparation of Rodlike ZnO Particles by Direct Precipitation Reaction;
直接沉积法制备棒状ZnO
2.
A rodlike barium ferrite precursor with an average size of 0.
高纯度钡铁氧体磁粉(BaFe12O19)是一种重要的磁记录介质[1~4],而除了磁粉的纯度外,颗粒的尺寸和形状也对磁粉的性能有重要的影响[5,6],Deng等人[7]采用在针状γ鄄Fe2O3颗粒表面包覆钡铁氧体的方法获得针状钡铁氧体磁性颗粒,大大提高了材料的磁性能,但对直接制备棒状钡铁氧体颗粒的报道较少。
5) claviform
[英]['klævifɔ:m] [美]['klævə,fɔrm]
棒状
1.
This thesis carries on the study of preparing claviform ultra-fine iron powder by liquid precipitation-thermal reduction.
本文研究了以液相沉淀法合成前驱体,然后对前驱体进行热分解还原得到棒状超细铁粉的方法。
2.
The claviform BaFe_(12)O_(19) crystal had been synthesized by precipitation–toptactic reaction method usingα-FeOOH andγ-FeOOH as raw materials respectively, and both formation processes of BaFe_(12)O_(19) with differ
分别以所制备的针状γ-FeOOH和α-FeOOH为原料,采用化学沉淀-局部规整法均制得棒状BaFe_(12)O_(19)。
6) microrods with a surface of"house of cards"structure
表面为树叶状的棒状结构
1.
Precipitation synthesis and characterization of Mg_5(CO_3)_4(OH)_2·4H_2O microrods with a surface of“house of cards”structureBasic magnesium carbonate (Mg_5(CO_3)_4(OH)_2·4H_2O) microrods with a surface of“house of cards”structure have been synthesized in an aqueous solution system without using any surfactants or templates during the precipitation process.
沉淀法制备棒状碱式碳酸镁在不用任何模版和表面活性剂的情况下,利用Mg(NO_3)_2·6H_2O和K_2CO_3作为原料合成了表面为树叶状的棒状结构。
补充资料:棒状杆菌阴道炎
棒状杆菌阴道炎
病名。即加特纳菌性阴道炎。详见该条。
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