Search results for "surfactant mixtures"

showing 6 items of 6 documents

Anti-Arrhenian behaviour of conductivity in octanoic acid–bis(2-ethylhexyl)amine systems: a physico-chemical study

2015

Pure surfactant liquids and their binary mixtures, owing to the amphiphilic nature of the molecules involved, can exhibit nano-segregation and peculiar transport properties. The structural and dynamic properties of octanoic acid (OA)–bis(2-ethylhexyl)amine (BEEA) liquid mixtures at various compositions have been studied by Wide Angle X-ray Scattering (WAXS), 1H-NMR and broadband dielectric spectroscopy as a function of temperature. It was found that the self-assembly occurs via proton exchange between the OA COOH group and the BEEA NH one; such self-assembled local structures are affected anisotropically by a temperature increase so that the thermal dilatation is more marked in a direction …

Materials scienceProtonScatteringGeneral ChemistryConductivity.MembranePulmonary surfactantChemical engineeringAmphiphileMaterials ChemistryMoleculeOrganic chemistrysurfactant mixturesAmine gas treatingBis(2-ethylhexyl) amine; self-assembly; conductivity; protonic conductivity; dielectric relaxation; octanoic acid; liquid mixtures; non-Arrhenian behaviour
researchProduct

Dynamical Properties of Self-Assembled Surfactant-Based Mixtures: Triggering of One-Dimensional Anomalous Diffusion in Bis(2-ethylhexyl)phosphoric Ac…

2013

The dynamic features of bis(2-ethylhexyl)phosphoric acid (HDEHP)/n-octylamine (NOA) mixtures have been investigated as a function of the NOA mole fraction and temperature by (1)H NMR spectroscopy and rheometry. All data consistently suggest a composition-induced glass-forming behavior. The microscopic factors responsible for this behavior have been highlighted and have been explained in terms of driving forces given by HDEHP-to-NOA proton transfer, the tendency of the resulting species to establish H bonds and to spatially segregate the alkyl chains. The study sheds light on the molecular mechanism responsible for the peculiar behavior of transport properties in such systems and furnishes b…

Models Molecularsurfactant mixtures self-assembly dynamical propertiesProtonAnomalous diffusionMole fractionSelf assembledDiffusionSurface-Active Agentschemistry.chemical_compoundPulmonary surfactantElectrochemistryOrganic chemistryGeneral Materials ScienceAminesPhosphoric acidSpectroscopyAlkylSettore CHIM/02 - Chimica Fisicachemistry.chemical_classificationMolecular StructureRheometryChemistrySurfaces and InterfacesCondensed Matter PhysicsOrganophosphatesThermodynamicsPhysical chemistryRheologyLangmuir
researchProduct

Nano-demixing as a novel strategy for magnetic field responsive systems: the case of dibutyl phosphate/bis(2-ethylhexyl)amine systems

2016

Pure surfactant liquids and their binary mixtures, owing to the amphiphilic nature of the molecules involved, can exhibit nano-segregation and peculiar transport properties. The possibility of opportunely choosing the amphiphiles should lead to the formation of anisotropic aggregates that can be oriented by an external factor like a magnetic field. In this case some properties, like optical birefringence, can be induced by the use of a magnetic field. Dynamic features of dibutyl phosphate (DBP)/bis(2-ethylhexyl)amine (BEEA) mixtures have been investigated by FT-IR, NMR, rheometry, Brillouin scattering, and magnetically-induced birefringence measurements as a function of the BEEA mole fracti…

Molecular diffusionsurfactant mixtures nanodemixingBirefringenceRheometryChemistryGeneral Chemical Engineering02 engineering and technologyGeneral Chemistry010402 general chemistry021001 nanoscience & nanotechnologyMole fraction01 natural sciencesMicelle0104 chemical sciencesChemical physicsAmphiphilePolarOrganic chemistryMolecule0210 nano-technologySettore CHIM/02 - Chimica Fisica
researchProduct

Thermodynamics of Surfactant, Block Copolymer and Their Mixtures in Water: The Role of the Isothermal Calorimetry

2009

The thermodynamics of conventional surfactants, block copolymers and their mixtures in water was described to the light of the enthalpy function. The two methodologies, i.e. the van't Hoff approach and the isothermal calorimetry, used to determine the enthalpy of micellization of pure surfactants and block copolymers were described. The van't Hoff method was critically discussed. The aqueous copolymer+surfactant mixtures were analyzed by means of the isothermal titration calorimetry and the enthalpy of transfer of the copolymer from the water to the aqueous surfactant solutions. Thermodynamic models were presented to show the procedure to extract straightforward molecular insights from the …

PolymerssurfactantEnthalpyThermodynamicsReviewCalorimetrycopolymer+surfactant mixtureCalorimetryMicelleenthalpy of injectionCatalysisEnthalpy change of solutionInorganic Chemistrylcsh:ChemistrySurface-Active Agentsenthalpy of copolymer+surfactant aggregationenthalpy of transferCopolymerPhysical and Theoretical ChemistryMolecular Biologylcsh:QH301-705.5MicellesSpectroscopyenthalpy of micellizationchemistry.chemical_classificationAqueous solutioncopolymerOrganic Chemistrycopolymer+surfactant mixturesWaterIsothermal titration calorimetryGeneral MedicinePolymerComputer Science Applicationschemistrylcsh:Biology (General)lcsh:QD1-999Thermodynamics
researchProduct

Self-assembly in surfactant-based mixtures driven by acid–base reactions: bis(2-ethylhexyl) phosphoric acid–n-octylamine systems

2013

Structural and dynamic features of bis(2-ethylhexyl) phosphoric acid (HDEHP)-n-octylamine (NOA) mixtures as a function of the NOA mole fraction (X-NOA) have been investigated by SAXS, WAXS, IR, dielectric spectroscopy and polarized optical microscopy. In the 0 <= X-NOA < 0.5 range, mixtures are transparent liquids, while the abrupt formation of a waxy solid characterized by an hexagonal bidimensional structure occurs at X-NOA = 0.5. Such a composition-induced phase transition results from the synergetic effect of the progressive increase in number density of ordered HDEHP-NOA nanodomains with X-NOA. Mainly driven by an HDEHP to NOA proton transfer, the increase of structural order with X-NO…

Steric effectsPhase transitionself-assembly surfactant mixtures nanostructures dynamical propertiesReversed micelles liquid crystals phosphate dielectric spectroscopyChemistrySmall-angle X-ray scatteringGeneral Chemical EngineeringReversed micellesGeneral ChemistryMole fractionDielectric spectroscopychemistry.chemical_compoundCrystallographyliquid crystalsChemical engineeringPulmonary surfactantSelf-assemblydielectric spectroscopyPhosphoric acidSettore CHIM/02 - Chimica FisicaphosphateRSC Advances
researchProduct

Micelles in Mixtures of Sodium Dodecyl Sulfate and a Bolaform Surfactant

2006

Mixtures composed of water, sodium dodecyl sulfate (SDS), and a bolaform surfactant with two aza-crown ethers as polar headgroups (termed Bola C-16) were investigated by modulating the mole ratios between the components. The two surfactants have ionic and nonionic, but ionizable, headgroups, respectively. The ionization is due to the complexation of alkali ions by the aza-crown ether unit(s). Structural, thermodynamic, and transport properties of the above mixtures were investigated. Results from surface tension, translational self-diffusion, and small angle neutron scattering ( SANS) are reported and discussed. Interactions between the two surfactants to form mixed micelles result in a com…

mixed micellesIonic bondingEtherANGLE NEUTRON-SCATTERINGMicelleanionic surfactants; mixed micelles; neutron scatteringSurface tensionSurface-Active Agentschemistry.chemical_compoundPulmonary surfactantAQUEOUS-SOLUTIONSSodium sulfateanionic surfactantsElectrochemistrySurface TensionGeneral Materials ScienceSodium dodecyl sulfateSANS surfactant mixtures micellesMicellesSpectroscopyHYDROCARBON SURFACTANTSPHASE SEPARATION MODELChromatographyneutron scatteringSodium Dodecyl SulfateSurfaces and InterfacesCondensed Matter PhysicsSmall-angle neutron scatteringchemistryChemical engineeringLangmuir
researchProduct