Effect of the Molecular Structure on the Adsorption Properties of Cationic Surfactants at the Air–Water Interface

Lehanine, Zineb; Badache, Leïla

doi:10.1007/s11743-015-1772-9

Cited by 8 publications

(4 citation statements)

References 24 publications

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“…The maximum surface excess (Γ max ) value is regarded as a measure of the adsorption effectiveness (Szymczyk and Jańczuk, ). The Γ max value can be obtained by surface tension measurements, based on the Gibbs adsorption isotherm (Azum et al, ; Bagheri and Khalili, ; Kamil and Siddiqui, ; Karpichev et al, ; Lehanine and Badache, ):

Γ_{\max} = - \frac{1}{mRT} \frac{dγ}{d \ln c}

where m is a constant, which specifies the number of species, formed by a surfactant dissociation in a water solution, whose concentration at the interface changes with change of the surfactant concentration in the bulk phase. In the case of binary surfactant mixtures m = m 1 x 1 + m 2 x 2, where m 1 and m 2 are the number of species formed by dissociation of surfactant 1 and 2, respectively, while x 1 and x 2 represent the mole fractions of surfactant 1 and 2, respectively, in the mixed monolayer having surfactants 1 and 2.…”

Section: Methodsmentioning

confidence: 99%

“…Minimum surface area per molecule can be calculated according to following equation, if the maximum surface excess value for a surfactant or surfactant mixture is known (Azum et al, ; Bagheri and Khalili, ; Kamil and Siddiqui, ; Karpichev et al, ; Lehanine and Badache, ):

A_{\min} = \frac{1}{N_{A} Γ_{\max}}

where N A is Avogadro constant.…”

Section: Methodsmentioning

confidence: 99%

“…It is also commonly known that properties of individual surfactants can be improved by mixing with other amphiphiles (Azum et al, ; Bagheri and Khalili, ; Ćirin et al, ; Ćirin and Poša, ; Holland and Rubingh, ; Hua and Rosen, ; Kamil and Siddiqui, ; Karpichev et al, ; Lehanine and Badache, ; Rosen and Hua, ; Rosen and Zhu, ; Schillén et al, ). One of the main reasons for this phenomenon is the existence of synergism, i.e., nonideal behavior, in surfactant mixtures.…”

Section: Introductionmentioning

confidence: 99%

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Influence of Poloxamer 407 on Surface Properties of Aqueous Solutions of Polysorbate Surfactants

Ćirin

Krstonošić

2020

J Surfact & Detergents

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Owing to their ability to adsorb at interfaces, polysorbates have an important role in pharmaceutical formulations. Because surfactant mixtures can have improved properties, it was hypothesized in this work that introduction of poloxamer 407 to aqueous solutions of polysorbates (polysorbate 60, polysorbate 80 and polysorbate 85) might improve their surface properties. Nonideal behavior of surfactant mixtures at the air/water interface was investigated using Rosen's model and recently introduced method for the determination and quantification of nonideal behavior regarding surface tension reduction and adsorption effectiveness. Although nonideal behavior was noticed in all mixed monolayers, it was shown that the structure of the hydrophobic domain of the polysorbates and the conformation of poloxamer 407 at the interface have strong influence on the nonideality. a α 1 is mole fraction of P407 in surfactant mixtures; Γ max value for pure poloxamer 407 (Γ max,1 ) is 1.618 μmol m −2 ; Γ max values for pure PS60, PS80 and PS85 (Γ max,2 ) are: 2.265 μmol m −2 , 2.527 and 3.924 μmol m −2 , respectively. A min value for pure poloxamer 407 (A min,1 ) is 102.65 × 10 −20 m 2 ; A min values for pure PS60, PS80 and PS85 (A min,2 ) are: 73.31, 65.71 and 42.32 μmol m -2 , respectively. 600 J Surfact Deterg J Surfact Deterg (2020) 23: 595-602

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Γ_{\max} = - \frac{1}{mRT} \frac{dγ}{d \ln c}

Section: Methodsmentioning

confidence: 99%

A_{\min} = \frac{1}{N_{A} Γ_{\max}}

where N A is Avogadro constant.…”

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Influence of Poloxamer 407 on Surface Properties of Aqueous Solutions of Polysorbate Surfactants

Ćirin

Krstonošić

2020

J Surfact & Detergents

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“…Generally, the hydrocarbon moieties are introduced into these surfactant molecules to further increase the hydrophobicity and improve the surface activity. Lehanine et al [42] synthesized a perfluorinated hexyl cationic fluorinated surfactants based on isourea, in which the condensation of a diisopropylcarbodiimide and a fluoroalkyl alcohol was used to obtain a fluorinated diisopropylisourea intermediate and then the intermediate reacted with the hydrohalogenated acid (HX, X=Cl or Br) to yield a salt ([((CH3) 2 CHNH) 2 COCH 2 CH 2 (CF 2 ) 5 CF 3 ][X], C8IF-X, X= Cl or Br) with surface activity. Since the perfluorinated hexyl and the hydrocarbon moiety can together improve hydrophobicity of surfactants, the prepared surfactants showed higher surface activity.…”

Section: Surfactants With Short Perfluorocarbon Chainmentioning

confidence: 99%

Synthesis and application of non-bioaccumulable fluorinated surfactants: a review

et al. 2021

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Due to negative effects of conventional fluorinated surfactants with long perfluorocarbon chain (CxF2x+ 1, x≥7) like perfluorooctanoic acid (PFOA) and perfluorooctane sulfonate (PFOS), these conventional long perfluorocarbon chain surfactants have been restricted in many industrial applications. Nowadays, their potential non-bioaccumulable alternatives have been developed to meet the requirements of environmental sustainable development. In this paper, the recent advances of potential non-bioaccumulable fluorinated surfactants with different fluorocarbon chain structures, including the short perfluorocarbon chain, the branched fluorocarbon chain, and the fluorocarbon chain with weak points, are reviewed from the aspects of synthesis processes, properties, and structure-activity relationships. And their applications in emulsion polymerization of fluorinated olefins, handling membrane proteins, and leather manufacture also are summarized. Furthermore, the challenges embedded in the current non-bioaccumulable fluorinated surfactants are also highlighted and discussed with the hope to provide a valuable reference for the prosperous development of fluorinated surfactants. Graphical abstract

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Effects of surfactant type and structure on properties of amines for carbon dioxide capture

Pichetwanit

Kungsanant

Supap

2021

Colloids and Surfaces A: Physicochemical and Engineering Aspect

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Effect of the Molecular Structure on the Adsorption Properties of Cationic Surfactants at the Air–Water Interface

Cited by 8 publications

References 24 publications

Influence of Poloxamer 407 on Surface Properties of Aqueous Solutions of Polysorbate Surfactants

Influence of Poloxamer 407 on Surface Properties of Aqueous Solutions of Polysorbate Surfactants

Synthesis and application of non-bioaccumulable fluorinated surfactants: a review

Effects of surfactant type and structure on properties of amines for carbon dioxide capture

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