1) reversed microemulsion
反相微乳
1.
The mass transfer characterizations in partially saponified Di-(2-ethylhexyl)-phosphoric acid ester/heptane/ NaOH/H2O reversed microemulsion extractions of L-tryptophane were presented.
考察部分皂化的二-(2-乙基己基)磷酸酯(HDEHP)/C7H6/NaOH/H2O反相微乳液(简称HDEHP微乳液)萃取色氨酸的行为。
2) inverse microemulsion
反相微乳液
1.
Research progress of inverse microemulsion technology for preparing nanoparticles;
反相微乳液法制备纳米颗粒研究进展
2.
Recent development on kinetics of inverse microemulsion polymerization;
反相微乳液聚合动力学研究进展
3.
Conductive behavior of the inverse microemulsions containing acrylamide and/or acrylic acid;
丙烯酰胺及丙烯酸反相微乳液聚合体系电导行为
3) reverse microemulsion
反相微乳法
1.
Controlled synthesis of Ce_(0.8)Y_(0.2)O_(1.9) nanoparticles by reverse microemulsion;
纳米级固溶体Ce_(0.8)Y_(0.2)O_(1.9)的反相微乳法控制合成
2.
Among the four samples, the one prepared by reverse microemulsion method showed a perfect cubic phase and the most reducible property.
其中,反相微乳法制得的铈锆固溶体能够形成完整的立方相结构,在H2-TPR还原过程中耗氢量最大,表明其具有优良的可还原性及储放氧能力,适合作为TWC,POX等催化剂载体。
4) reverse microemulsion method
反相微乳法
1.
Principle of nanometer catalyst preparation through reverse microemulsion method and its application in preparation of high temperature combustion catalyst were introduced.
综述了反相微乳法制备纳米催化剂的原理及其在制备高温燃烧催化剂上的应用。
5) reverse microemulsion
反相微乳液
1.
Preparation of Ce and Mn substituted hexaaluminate catalysts for natural gas combustion by reverse microemulsion;
反相微乳液法制备铈锰取代六铝酸盐甲烷燃烧催化剂
2.
Preparation of nano-sized bismuth oxide nitrate hydroxide hydrate particles by a reverse microemulsion method;
反相微乳液法制备纳米四水羟基硝酸氧铋
3.
Preparation of ultrafine silica with different morphologies using reverse microemulsions;
反相微乳液法制备不同形貌超细二氧化硅
6) SFC inverse-phase microemulsions
SFC反相微乳
1.
Analytical methods of the structure of SFC inverse-phase microemulsions were discussed.
介绍了微乳形成的原理及结构类型,分析了超临界二氧化碳(SFC)反相微乳的结构特点,及表面活性剂(SAA)、助表面活性剂(CSAA)、pH、离子强度、温度和压力对SFC反相微乳的影响,讨论了SFC反相微乳聚集体结构的分析和测试方法。
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