Abstract
The influence of the head group structure on the critical micelle concentration of cationic surfactants, mainly quaternary ammonium bromide salts with one alkyl tail, has been studied theoretically by QSPR using molecular connectivity indices and also the atomic partial charges. Two models obtained allow to study the effect of head group structure modification on the value of the critical micelle concentration. The model, which contains molecular connectivity indices together with the charge localized on the central nitrogen atom, has a wider descriptive capability than the model which contains topological indices only. The present semi-empirical charge investigations of different quaternary ammonium salts show that the charges of the quaternary ammonium head groups are approximately the same, but one of the obtained models shows that the significant part of that charge, which is localized on the central nitrogen atom, affects the value of the critical micelle concentration.
Highlights
Cationic surfactants have attracted the attention of chemists for a long time due to their wide application in various fields of industry and medicine
Each formula expressing the relationship between the log10 cmc and the descriptors was generated using the least-squares method
The presence of heteroatoms in the head group of cationic surfactants causes a decrease of the critical micelle concentration
Summary
Cationic surfactants have attracted the attention of chemists for a long time due to their wide application in various fields of industry and medicine. Their utility results from, among other things, their antimicrobial activities [1,2,3] and anticorrosion properties [4, 5]. The medical applications of cationic surfactants include their use as antimicrobial agents, as drug delivery agents and as gene delivery agents. Cationic surfactants and their critical micelle concentrations were investigated by Quantitative Structure–Property Relationship (QSPR) studies [11,12,13,14,15,16,17]
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