1) Water-in-oil microemulsion(W/O)
反相微乳液(W/O)
2) O/W microemulsion
O/W微乳液
1.
At first, Pd(NO3)2 was recycled from the waste Pd-C catalyst, then, the palladium nanoparticles with size of 5 nm to 200 nm were generated in the O/W microemulsion of sodium dodecyl sulfate (SDS), Brij30 and H2O system by using nonionic surfactant Brij30 as the reducing agent.
从Pd-C催化剂废料回收Pd(NO3)2,然后在SDS/Brij30/H2O体系O/W微乳液中制备纳米钯。
2.
Fine particles of polyaniline were prepared in (An+O/W microemulsion)two phase system in which the An phase was used as a monomer source and the O/W microemulsion phase for polymerization.
选择合适的SDBS/苯胺/H2O三组分O/W微乳液与苯胺单体共存的两相体系,以单体相为单体源,在O/W三组分微乳液中进行了苯胺聚合,所得聚苯胺粒子大小仅为3nm,分布较均匀,且具有较好的导电性能。
3) W/O microemulsions
W/O微乳液
1.
In this paper, a review is presented focusing on the application of reversed micelles or w/o microemulsions to synthesizing nano-sized ultrafine particles, including precip itation in reversed micelles, preparation of colloidal catalysts, preparation of semi-conductors, magnetic particles and ceramic powders, etc.
本文对近年来应用反向胶团或w/o微乳液制备纳米级超细颗粒的研究进展作了评述,包括反胶团内的沉淀、胶体催化剂、半导体、磁性及陶瓷材料的制备等。
4) W/O microemulsion
W/O微乳液
1.
Mechanism of solutes extraction using reversed micelle or W/O microemulsion;
反胶束、W/O微乳液的特性及其萃取机理
2.
Preparation of ultrafine MgO particles in W/O microemulsions;
W/O微乳液中制备MgO超细粒子
3.
Palladium nano-particles were synthesized by W/O microemulsion composed of nonionic surfactant (alkylpolyglycol ethers) named Marlipal O13/50, water and cyclohexane.
利用脂肪醇聚氧乙烯醚型非离子表面活性剂MarlipalO13/50、水、环己烷组成的W/O微乳液体系合成纳米Pd微粒,考察了化学破乳剂作用下纳米Pd微粒的沉积过程。
5) O/W microemulsion
O/W型微乳液
6) W/O microemulsion
W/O型微乳液
1.
The hydrophobic gold nanomaterials with various morphologies and sizes were prepared by ethanol reduction under the routine heating in cetyltrimethylammonium bromide(CTAB) or octadecylamine(C18NH2)/n-heptane/ ethanol/ HAuCl4(4H2O W/O microemulsion system.
4H2O W/O型微乳液体系中,利用简单的加热手段通过乙醇还原法制备了具有不同形貌和尺寸的憎水性金纳米材料。
2.
The W/O microemulsion of Tween 80-Span 80/ethanol/butyl butyrate/H_2O to envelop insulin(INS) was prepared.
制备了包封胰岛素(INS)的Tween 80-Span 80/乙醇/丁酸乙酯/水体系的W/O型微乳液。
3.
The hydrophobic silver nanoparticles protected with octadecylamine were fabricated by using formamide as reducing agent in the octadecylamine/n-butanol/n-heptane/formamide/AgNO_3(aq) W/O microemulsion under the state of refluxing.
利用十八胺/正丁醇/正庚烷/甲酰胺/A gNO3(aq)构成的W/O型微乳液体系,在回流状态下由甲酰胺还原银离子制得了十八胺稳定的憎水性银纳米粒子,并通过UV-V is、TEM和XRD等手段对样品进行了表征。
补充资料:下相微乳液
分子式:
CAS号:
性质:在低盐度时,O/W型微乳液与剩余油共存并处于平衡状态时,称为下相微乳液,因O/W型微乳液密度较油大,在试管中位于油的下面,故名下相微乳液。它所用的表面活性剂为亲水性,HLB(亲水亲油平衡值)为9~20,例如用α-烯烃磺酸盐、燃料油、氯化钠水溶液、戊醇配成的微乳液为下相微乳液。
CAS号:
性质:在低盐度时,O/W型微乳液与剩余油共存并处于平衡状态时,称为下相微乳液,因O/W型微乳液密度较油大,在试管中位于油的下面,故名下相微乳液。它所用的表面活性剂为亲水性,HLB(亲水亲油平衡值)为9~20,例如用α-烯烃磺酸盐、燃料油、氯化钠水溶液、戊醇配成的微乳液为下相微乳液。
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