Search results for "IONIC SURFACTANTS"

showing 6 items of 6 documents

Solubilization of an Organic Solute in Aqueous Solutions of Unimeric Block Copolymers and Their Mixtures with Monomeric Surfactant: Volume, Surface T…

2008

The ability of aqueous systems, formed by unimeric copolymers and their mixtures with a monomeric surfactant, in solubilizing large quantities of 1-nitropropane (PrNO2) was explored. The copolymers are F68 and L64, which differ for the hydrophilicity, and the surfactant is sodium dodecanoate. For a better understanding of the mechanism of solubilization, thermodynamic (volume and differential scanning calorimetry), spectroscopy (steady-state fluorescence), viscosity, and interfacial investigations were carried out. PrNO2 causes the micellization of the unimeric copolymer, and the required amount of PrNO2 depends on the composition, the copolymer nature, and the temperature. Large quantities…

Aqueous solutionISOTHERMAL TITRATION CALORIMETRYChemistryMICELLAR SYSTEMSDYNAMIC LIGHT-SCATTERINGIONIC SURFACTANTSTRIBLOCK COPOLYMERSMicelleFluorescence spectroscopySurfaces Coatings and FilmsSurface tensionViscosityDifferential scanning calorimetryAGGREGATION BEHAVIORPulmonary surfactantChemical engineeringMIXED MICELLESPolymer chemistryMaterials ChemistryCopolymerPhysical and Theoretical ChemistrySODIUM DODECYL-SULFATEOXIDE)(13)-(PROPYLENE OXIDE)(30)-(ETHYLENE OXIDE)(13)GEMINI SURFACTANTS
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Micellization properties of cardanol as a renewable co-surfactant

2015

With the aim to improve the features of surfactant solutions in terms of sustainability and renewability we propose the use of hydrogenated natural and sustainable plant-derived cardanol as an additive to com- mercial surfactants. In the present study we demonstrated that its addition, in amounts as high as 10%, to commercial surfactants of different charge does not significantly affect surfactant properties. Conversely, the presence of hydrogenated cardanol can strongly affect spectrophotometric determination of CMC if preferential interactions with the dyes used take place. This latter evidence may be profitably exploited in surfactant manufacturing by considering that the concurrent pres…

Dynamic Laser Light Scattering.Sustainable surfactantIONIC SURFACTANTSTETRADECYLDIMETHYLAMINE OXIDEBiochemistryCardanolSurface-Active AgentsPhenolsPulmonary surfactantMoleculeOrganic chemistryFLUORESCENCEPhysical and Theoretical ChemistryMicellesCardanolCetrimoniumChemistrybusiness.industry-PotentialOrganic ChemistryWaterHYDROGENATED CARDANOLOrange OTTensiometryRenewable energyAGGREGATION NUMBERPREMICELLAR AGGREGATIONCetrimonium CompoundsSpectrophotometric determination of CMCGEMINI SURFACTANTSbusinessBEHAVIOROrganic & Biomolecular Chemistry
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Calorimetric and Volumetric Investigations of the Effect of the Hydrophobicity of the Surfactant on the Binding between (Ethylene oxide)13-(propylene…

2004

The enthalpy and the volume of transfer (DeltaY(t)) of the unassociated (ethylene oxide)(13)-(propylene oxide)(30)-(ethylene oxide)(13) (L64) from water to the aqueous sodium alkanoate solutions as functions of the surfactant concentrations (m(S)) were determined at 298 K. The surfactants studied are sodium hexanoate, sodium heptanoate, sodium octanoate, sodium undecanoate, and sodium dodecanoate. As a general feature, for the short alkyl chain surfactants, DeltaY(t) describes an S-shaped curve in the range of m(S) analyzed whereas for the more hydrophobic surfactants the DeltaY(t) vs m(S) trends exhibit maxima which appear at ms values very close to the critical micellar concentration in w…

Polymers and PlasticsSodiumInorganic chemistryEnthalpyFLUORINATED ALCOHOLSchemistry.chemical_elementIONIC SURFACTANTSHEAT-CAPACITYTRIBLOCK COPOLYMERSInorganic Chemistrychemistry.chemical_compoundPulmonary surfactantMaterials ChemistryWATERMOLAR VOLUMESCarboxylatePropylene oxideAqueous solutionEthylene oxideOrganic ChemistrySECONDARY ALCOHOLSMICELLAR SOLUTIONSDODECYLTRIMETHYLAMMONIUM BROMIDEchemistryVolume (thermodynamics)THERMODYNAMIC PROPERTIES
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Passive sampling in monitoring of nonylphenol ethoxylates and nonylphenol in aquatic environments

2012

The present practices for determining the concentration levels of various pollutants are in many respects insufficient and for this reason, there is an urgent need especially to develop more cost-effective sampling methods. In this study, a novel passive sampling tool (the Chemcatcher®) for monitoring nonylphenol ethoxylates (NPEOs) and nonylphenol (NP) in aqueous media was tested. These environmentally harmful substances have been widely used in different household and industrial applications and they affect aquatic ecosystems, for example, by acting as endocrine disrupting compounds. The highest accumulation of NPEOs and NP in laboratory-scale tests was obtained when using an SDB-XC (stan…

alkylphenol ethoxylatesChemcatcher®nonylphenolsolid phase extractionnon-ionic surfactantshigh-performance liquid chromatographynonylphenol ethoxylatespassive sampling
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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
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A route to simple nonionic surfactants

2016

AbstractA method for the synthesis of nonionic surfactants – N-alkyl-O-(2-hydroxyethyl) carbamates is proposed by acylation of fatty amines with ethylene carbonate without any solvent or catalyst. The surface tension of the prepared surfactants was measured, toxicity and biodegradability were determined for the surfactant with n-dodecyl as a hydrophobic group and N-monosubstituted amide and hydroxyl groups for their hydrophilic part.

synthesis02 engineering and technology010402 general chemistry01 natural sciencessurfactantsCatalysisSurface tensionAcylationlcsh:Chemistrychemistry.chemical_compoundPulmonary surfactantbiodegradabilityAmidesurface tensionOrganic chemistrylcsh:ScienceEthylene carbonateGeneral EngineeringtoxicityBiodegradation021001 nanoscience & nanotechnology0104 chemical sciencesSolventchemistrylcsh:QD1-999lcsh:Q0210 nano-technologynonionic surfactantsCogent Chemistry
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