Development of Novel Multifunctional Cosmetic Raw Materials and Their Applications. IV. The Effect of Structure of Polyoxyethylene / Polyoxypropylene Derivative on the Self-organizing Structures of Surfactants

In this study, the effect of a random copolymer of polyoxyethylene (POE, 38 mol) / polyoxypropylene (POP, 10 mol) pentaerythrytol tetramethyl ether [PEPTME (38/10)], which is unable to form a self-organizing structure on account of its bulkiness, on the microemulsion phase was examined. The phase di...

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Bibliographic Details
Published inJournal of Oleo Science Vol. 58; no. 2; pp. 65 - 73
Main Authors Miyahara, Reiji, Nakanishi, Yuko, Maruyama, Kei-ichi, Sharma, Suraj Chandra, Abe, Masahiko
Format Journal Article
LanguageEnglish
Published Japan Japan Oil Chemists' Society 2009
Japan Science and Technology Agency
Subjects
Alkenes - chemistry
Chemistry - methods
Chemistry, Physical - methods
Cosmetics
Crystallization
highly concentrated microemulsion
Methyl Ethers - chemistry
microemulsion
Models, Chemical
phase diagram
Polyethylene Glycols - chemistry
Polyethylenes - chemistry
Polymers - chemistry
polyoxyethylene (POE) / polyoxypropylene (POP) pentaerythrytol tetramethyl ether
Propylene Glycols - chemistry
Solubility
Spectrophotometry, Infrared - methods
Surface Properties
Surface-Active Agents - chemistry
Temperature
Water - chemistry
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Summary:In this study, the effect of a random copolymer of polyoxyethylene (POE, 38 mol) / polyoxypropylene (POP, 10 mol) pentaerythrytol tetramethyl ether [PEPTME (38/10)], which is unable to form a self-organizing structure on account of its bulkiness, on the microemulsion phase was examined. The phase diagram of the liquid paraffin - nonionic surfactant+PEPTME (38/10) - water system was compared with that of polyoxyethylene (POE) / polyoxypropylene (POP) dimethyl ether (EPDME) system which has a straight-chain structure. In the previous study, the authors reported that a special droplet type microemulsion (highly concentrated microemulsion) was formed, when EPDME was distributed in the hydrophilic moiety of a surfactant in a lamellar liquid crystalline phase. In contrast, it was found that the use of PEPTME (38/10) resulted in disappearance of lamellar as well as hexagonal and cubic liquid crystals, and the formation of an optically isotropic and fluid phase owing to the relationship between the original microemulsion phase and the highly concentrated microemulsion phase. Thus, PEPTME (38/10) was considered to be most suited for preparing highly concentrated microemulsions.
ISSN:1345-8957
1347-3352
DOI:10.5650/jos.58.65