Online citations, reference lists, and bibliographies.
← Back to Search

An Efficient Method To Determine The Hydrophile‐Lipophile Balance Of Surfactants Using The Phase Inversion Temperature Deviation Of CiEj/n‐octane/water Emulsions

M. Nollet, H. Boulghobra, E. Calligaro, J-D Rodier
Published 2019 · Chemistry, Medicine

Save to my Library
Download PDF
Analyze on Scholarcy
Share
The aim of this study was to develop a fast and an efficient method to determine the Hydrophile‐Lipophile Balance (HLB) number of cosmetic and pharmaceutics surfactants.
This paper references
10.1016/0021-9797(67)90276-7
The solubilization of water in nonaqueous solutions of nonionic surfactants
K. Shinoda (1967)
Nonionic surfactant mixtures. I. Phase equilibriums in 3
J C Lang (1980)
10.1021/IE302772U
Relationship between Phase Behavior and Emulsion Inversion for a Well-Defined Surfactant (C10E4)/n-Octane/Water Ternary System at Different Temperatures and Water/Oil Ratios
Aldo Pizzino (2013)
10.1111/j.2042-7158.1972.tb08887.x
The influence of formulation variables on phase inversion temperatures of emulsions as determined by a programmed viscometric technique *
V. B. Sunderland (1972)
10.1001/archderm.1963.01590150122028
The Chemistry and Manufacture of Cosmetics
W. B. Gibson (1963)
10.1016/0021-9797(67)90047-1
The effect of mixing of oils and of nonionic surfactants on the phase inversion temperatures of emulsions
H. Arai (1967)
10.1016/0021-9797(68)90273-7
The effect of temperature on the phase equilibria and the types of dispersions of the ternary system composed of water, cyclohexane, and nonionic surfactant
K. Shinoda (1968)
Surfactants in Cosmetics, 2nd edn
M. M. Rieger (1997)
10.1016/J.COLSURFA.2014.02.058
A simple method to assess the hydrophilic lipophilic balance of food and cosmetic surfactants using the phase inversion temperature of C10E4/n-octane/water emulsions
J. F. Ontiveros (2014)
10.1016/S1773-2247(08)50015-3
Particular conductive behaviors of emulsion phase inverting
N. Anton (2008)
10.1021/LA00036A008
Improving solubilization in microemulsions with additives. 2. Long chain alcohols as lipophilic linkers
A. Graciaa (1993)
10.1016/S0021-9797(69)80012-3
The Stability of O/W type emulsions as functions of temperature and the HLB of emulsifiers: The emulsification by PIT-method
K. Shinoda (1969)
Calculation of HLB values of non-ionic surfactants
W. C. Griffin (1954)
10.1021/LA9905517
Partitioning of ethoxylated octylphenol surfactants in microemulsion-oil-water systems: influence of temperature and relation between partitioning coefficient and physicochemical formulation
J. Salager (2000)
A QUANTITATIVE KINETIC THEORY OF EMULSION TYPE . I . PHYSICAL CHEMISTRY OF THE EMULSIFYING
J. Davies (2003)
10.1016/0021-9797(83)90431-9
The partitioning of complex surfactant mixtures between oil/water/microemulsion phases at high surfactant concentrations
A. Graciaa (1983)
The HLB System. ICI Americas
I C I Americas (1984)
10.1021/LA00027A010
Improving Solubilization in Microemulsions with Additives. 1. The Lipophilic Linker Role
A. Graciaa (1993)
Classification of surface-active agents by "HLB"
W. C. Griffin (1946)
Society of Cosmetic Scientists and the Soci et e Franc aise de Cosm etologie International Journal of Cosmetic Science, 41, 99–108 Determine HLB value by efficient method
M. Nollet (1984)
10.1063/1.440028
Nonionic surfactant mixtures. I. Phase equilibria in C10E4–H2O and closed‐loop coexistence
J. C. Lang (1980)
10.1021/J100794A007
The Correlation between Phase Inversion Temperature In Emulsion and Cloud Point in Solution of Nonionic Emulsifier
K. Shinoda (1964)
10.1016/0021-9797(67)90271-8
The solubilization of hydrocarbons in aqueous solutions of nonionic surfactants
H. Saito (1967)
10.1021/LA030306U
Quantitative effect of nonionic surfactant partitioning on the hydrophile-lipophile balance temperature.
M. Ben Ghoulam (2004)
10.1016/J.COLSURFA.2017.07.021
Revisiting the influence of carboxylic acids on emulsions and equilibrated SOW systems using the PIT-slope method
J. F. Ontiveros (2018)
10.1016/j.jcis.2015.02.028
Structure-interfacial properties relationship and quantification of the amphiphilicity of well-defined ionic and non-ionic surfactants using the PIT-slope method.
J. F. Ontiveros (2015)
10.1021/jo01294a034
Phase-transfer synthesis of monoalkyl ethers of oligoethylene glycols
T. Gibson (1980)
10.1016/J.CIS.2006.05.015
The selective partitioning of the oligomers of polyethoxylated surfactant mixtures between interface and oil and water bulk phases.
A. Graciaa (2006)
10.1246/NIKKASHI1948.89.5_435
The comparison between the PIT system and the HLB-value system to emulsifier selection
K. Shinoda (1968)
10.1016/0021-9797(78)90335-1
Emulsifier selection in water/oil type emulsions by the hydrophile—lipophile balance—temperature system
K. Shinoda (1978)
10.1016/J.COLSURFA.2015.03.051
Dramatic influence of fragrance alcohols and phenols on the phase inversion temperature of the Brij30/n-octane/water system
J. F. Ontiveros (2015)
10.1016/0021-9797(67)90270-6
The correlation between the dissolution state of nonionic surfactant and the type of dispersion stabilized with the surfactant
K. Shinoda (1967)
10.1023/A:1016121319668
A Novel Phase Inversion-Based Process for the Preparation of Lipid Nanocarriers
B. Heurtault (2004)
Emulsions And Solubilization
S. Papst (2016)
Nonionic surfactant mixtures. I. Phase equilibriums in 3,6,9,12-tetraoxadocosanol-water and closed-loop coexistence
J. C. Lang (1980)
10.1201/9780203737743
Surfactants in Cosmetics
M. Rieger (1985)
10.1016/0021-9797(76)90142-9
Microemulsions containing nonionic surfactants—The importance of the pit value
S. Friberg (1976)
10.1016/0927-7757(94)02743-9
The science and applications of emulsions — an overview
J. Israelachvili (1994)
10.1016/J.COLSURFA.2017.07.024
Towards a new universal way to describe the required hydrophilic lipophilic balance of oils using the phase inversion temperature of C10E4/n-octane/water emulsions
M. Royer (2018)
10.1088/0031-9112/21/10/017
Handbook of Chemistry and Physics 50th Edn
M. J. Stowell (1970)



This paper is referenced by
Semantic Scholar Logo Some data provided by SemanticScholar