1) double microemulsion
双微乳液
1.
The results show that CoFe2O4 nanoparticles are obtained by the double microemulsion method.
以TritonX-100/正己醇/正己烷/水为反应介质,采用双微乳液法合成了尖晶石型CoFe2O4磁性纳米颗粒。
2) bicontinuous microemulsion
双连续相微乳液
1.
Characteristics and application of bicontinuous microemulsion polyme rization;
双连续相微乳液聚合特征与应用
3) dual surfactants microemulsion
双表面活性剂微乳液
4) microemulsion
微乳液
1.
Application of W/O Microemulsion in Preparation of Ultra-fine Alumina from Coal Gangues;
W/O型微乳液在煤矸石制取超细氧化铝中的应用
2.
Application of the phase inversion of microemulsions in the organic contaminant separation;
微乳液相转变在分离有机污染物方面的应用
3.
Properties of sodium dodecyl sulfate/ n-butanol/ n-heptane/water microemulsion system;
十二烷基硫酸钠/正丁醇/正庚烷/水微乳液性质研究
5) microemulsion
微乳状液
1.
Investigation of Extraction Process by Titration Calorimetry(Ⅳ)——Formation of Reversed Micelle and Microemulsion in Extraction Organic Phase or Saponated P507;
萃取过程的量热研究(Ⅳ)——皂化P507萃取有机相中反向胶束和微乳状液的形成
2.
Results show that the maximum area of microemulsion region is achieved using tween-60 as surfactant with the km value being of 0.
结果表明,所研究的各体系中,以吐温-60所形成的微乳状液区最大。
3.
The paper simply introduced the classification and property of microemulsion(ME).
介绍了微乳状液的体系类型及性质,阐述了其作为研究热点的应用现状,并预测了微乳状液的前景。
6) microemulsion
微乳液法
1.
The preparation of nano Fe_2O_3 powder via W/O microemulsion method and its gas sensitivity;
Fe_2O_3基纳米粉体的微乳液法制备及其气敏性
2.
Synthesis of Calcium Fluoride Nanoparticles from Microemulsion;
微乳液法制备CaF_2纳米颗粒
3.
Preparation of Pt/C electrocatalyst used in PEMFC by microemulsion method;
微乳液法制备PEMFC用Pt/C电催化剂
补充资料:上相微乳液
分子式:
CAS号:
性质:在高盐度时,W/O微乳液与剩余盐水共存并处于平衡状态时,称为上相微乳液。因W/O型微乳液密度较盐水小,在试管中拉于盐水的上面,故名上相微乳液。它所用的表面活性剂常为亲油性,HLB(亲水亲油平衡值)为4~7,例如用甘油单月桂酸酯硫酸钠、油(如正癸烷)、盐水、醇配制成的微乳液即为上相微乳液。
CAS号:
性质:在高盐度时,W/O微乳液与剩余盐水共存并处于平衡状态时,称为上相微乳液。因W/O型微乳液密度较盐水小,在试管中拉于盐水的上面,故名上相微乳液。它所用的表面活性剂常为亲油性,HLB(亲水亲油平衡值)为4~7,例如用甘油单月桂酸酯硫酸钠、油(如正癸烷)、盐水、醇配制成的微乳液即为上相微乳液。
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