The mixing behaviour of anionic and nonionic surfactant blends in aqueous environment correlates in fatty acid ester medium

“… 20 Maximum solubilization of the dispersed phase with a minimum amount of surfactant can be achieved using a mixture of surfactants. 21 The surfactant used in this study was Cremophor RH40 and the cosurfactant was Span80. Cremophor RH40 can be used in a wide variety of pharmaceuticals and cosmetics due to its low toxicity and good compatibility with other ingredients in complex formulations.…”

Experimental investigation of the strong stability, antibacterial and anti-inflammatory effect and high bioabsorbability of a perilla oil or linseed oil nanoemulsion system

“… 20 Maximum solubilization of the dispersed phase with a minimum amount of surfactant can be achieved using a mixture of surfactants. 21 The surfactant used in this study was Cremophor RH40 and the cosurfactant was Span80. Cremophor RH40 can be used in a wide variety of pharmaceuticals and cosmetics due to its low toxicity and good compatibility with other ingredients in complex formulations.…”

Experimental investigation of the strong stability, antibacterial and anti-inflammatory effect and high bioabsorbability of a perilla oil or linseed oil nanoemulsion system

“…In particular, RMs prepared in biocompatible solvents such as isopropyl myristate (IPM, Scheme ), ethyl myristate, ethyl palmitate and ethyl oleate appears as promising replacement to traditional nonpolar solvents . These long chain fatty acid esters are environmentally friendly with low toxicity and highly biodegradable . One of the main goals is to produce non‐toxic RMs that preserves the unique properties of the very‐well known AOT RMs in traditional solvents.…”

Micropolarity and Hydrogen‐Bond Donor Ability of Environmentally Friendly Anionic Reverse Micelles Explored by UV/Vis Absorption of a Molecular Probe and FTIR Spectroscopy

“…[14][15][16][17][18][19] These long chain fatty acid esters are environmentally friendly with low toxicity and highly biodegradable, and most interestingly they show structural resemblance with the lipids in living systems. [19][20][21][22] On the other hand, it has been found that the addition of nonionic surfactants to the RMs interfaces formed by ionic surfactants, produces significant changes in water solubilization, droplet sizes as well as modifies the water or polar solvents structure inside the nanopool. 20,[23][24][25] Kundu et.…”

“…al. 20,21 explored the influence of nonionic surfactant Tween-85 on the properties of anionic sodium 1,4-bis-2-ethylhexylsulfosuccinate (AOT) based micelle as well as RMs in fatty acid esters (EM, EP and EO). A comprehensive investigation of the micellization behavior at different mixed molar fraction of Tween-85 (X Tween-85 ) was made by surface tension methods.…”

“…The presence of the nonionic surfactant shields the AOT head group repulsion making the interface more fluid. 20,47 The induced fluidity in turn increases the attractive interaction between the droplets, produces shape fluctuations, facilitates clustering of RMs and thereby limits the water solubilization capacity. 6 Figure 3A shows the 4-AP absorption spectra by varying the surfactant concentration in the water/AOT/ML pure system at W 0 =2.…”

Structural Characterization of Biocompatible Reverse Micelles Using Small-Angle X-ray Scattering, ³¹P Nuclear Magnetic Resonance, and Fluorescence Spectroscopy