Search results for " ion pair"

showing 10 items of 12 documents

Solubility and acid-base properties and activity coefficients of chitosan in different ionic media and at different ionic strengths, at T=25°C

2009

Studies on the acid-base properties and solubility of a polyammonium polyelectrolyte (chitosan) with different molecular weights (MW 310 and 50 kDa), were performed at T=25 °C, in the pH range 2.5–7. The protonation of chitosan was investigated by potentiometry ([H+]-glass electrode) in NaCl, NaNO3 and mixed NaNO3+Na2SO4 ionic media, at different ionic strengths. Protonation constants were calculated as a function of dissociation degree α by means of two different models, namely, a simple linear model and the modified Henderson–Hasselbalch equation. Experimental data were also fitted using a model independent of α (Diprotic-like model), according to which the acid-base properties can be sim…

Activity coefficientChemistryInorganic chemistryIonic bondingProtonationChitosan Acid-base properties Solubility Activity coefficients Ion pair formationCondensed Matter PhysicsSettore CHIM/12 - Chimica Dell'Ambiente E Dei Beni CulturaliAtomic and Molecular Physics and OpticsDissociation (chemistry)Electronic Optical and Magnetic MaterialsSpecific ion interaction theoryIonic strengthStability constants of complexesMaterials ChemistrySettore CHIM/01 - Chimica AnaliticaPhysical and Theoretical ChemistrySolubilitySpectroscopyJournal of Molecular Liquids

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Hydrolysis and chemical speciation of dioxouranium(VI) ion in aqueous media simulating the major ion composition of seawater

2004

Abstract The hydrolysis and chemical speciation of the dioxouranium(VI) ion at 25 °C was studied in a number of binary electrolytes (LiCl, NaCl, MgCl2, CaCl2, Na2SO4) and some mixtures (NaCl–Na2SO4, NaNO3–Na2SO4, CaCl2–MgCl2) as well as artificial seawater (SSWE) as a function of ionic strength. The results in LiCl, CaCl2 and MgCl2 solutions confirmed the formation of (UO2)2(OH)22+, (UO2)3(OH)42+, (UO2)3(OH)5+ and (UO2)3(OH)7− species (at I=0 mol l−1: log Tβ22=−5.76, log Tβ34=−11.82, log Tβ35=−15.89 and log Tβ37=−29.26). For NaNO3, NaCl and artificial seawater the hydrolysis constant for the formation of the UO2(OH)+ species was also determined (at I=0 mol l−1: log Tβ11=−5.19). The results …

Activity coefficientHydrolysis constantUranium speciationAqueous solutionChemistryHydrolysisInorganic chemistryPitzer parametersIonic bondingArtificial seawaterGeneral ChemistryDependence on ionic strengthOceanographyUranylIon pair formationIonDioxouranium(VI)chemistry.chemical_compoundIonic strengthEnvironmental ChemistryChemical speciationHydrolysis; Dioxouranium(VI); Chemical speciation; Seawater; Dependence on ionic strength; Dependence on ionic medium; Pitzer parameters; Ion pair formationSeawaterDependence on ionic mediumWater Science and Technology

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Protonation of Carbonate in Aqueous Tetraalkylammonium Salts at 25°C.

2006

Protonation constants of carbonate were determined in tetramethylammonium chloride (Me4NClaq 0.1≤I/mol kg−1 ≤4) and tetraethylammonium iodide (Et4NIaq 0.1≤I/mol kg−1 ≤1) by potentiometric ([H+]-glass electrode) measurements. Dependence of protonation constants on ionic strength was taken into account by modified specific ion interaction theory (SIT) and by Pitzer models. Literature data on the protonation of carbonate in NaClaq (0.1≤I/mol kg−1 ≤6) were also critically analysed. Both protonation constants of carbonate follow the trend Et4NI>Me4NCl > NaCl. An ion pair formation model designed to take into account the different protonation behaviours of carbonate in different supporting electr…

Aqueous solutionProtonation of carbonateSpecific ion interaction theory (SIT)Ion pair formation modelChemistryInorganic chemistryTetraalkylammonium saltProtonationDependence on ionic strengthElectrolyteIon pairsAnalytical Chemistrychemistry.chemical_compoundIonic strengthTetramethylammonium chlorideAqueous solutionPitzer equationsCarbonateSettore CHIM/01 - Chimica AnaliticaProtonation of carbonate; Dependence on ionic strength; Aqueous solution; Tetraalkylammonium salts; Ion pair formation model; Specific ion interaction theory (SIT); Pitzer equationPitzer equation

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Amine basicity: measurements of ion pair stability in ionic liquid media

2007

Abstract The stability constants relevant to the formation of amine/p-nitrophenol ion pairs have been determined in [bmim][BF4] solution, in the presence of butylamine, piperidine, and triethylamine, by using spectrophotometric measurements. In order to evaluate how the ion pair stability is affected by ionic liquid structure, piperidine has been chosen as model amine for studies in [bmim][PF6], [bmim][NTf2], [bm2im][NTf2] and in several [bmim][BF4]/1,4-dioxane binary mixtures. Data obtained in ionic liquid solutions have been compared with those previously reported in conventional organic solvents.

ButylamineOrganic ChemistryInorganic chemistrySettore CHIM/06 - Chimica OrganicaIon pairsBiochemistrychemistry.chemical_compoundchemistryIonic liquids amine basicity ion pairDrug DiscoveryIonic liquidAmine gas treatingPiperidineTriethylamineTetrahedron

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Low-Q peak in X-ray patterns of choline-phenylalanine and homophenylalanine: a combined effect of chain and stacking

2016

Abstract In this contribution we report for the first time the X-ray patterns of choline-phenylalanine and choline-homophenylalanine ionic liquids. The presence of a low Q peak in both systems is another evidence that a long alkyl chain is not always needed to establish a nanodomain segregation in the liquid sufficient to be revealed by the diffraction experiment. These new data are compared with the diffraction patterns and the theoretical calculations of other choline-aminoacid ionic liquids recently reported. A significant role might be played by the stacking interactions between aromatic rings.

DiffractionChemical substancePhenylalanineStackingGeneral Physics and AstronomyPhenylalanine02 engineering and technologyIonic liquid010402 general chemistry01 natural sciencesCholinePhysics and Astronomy (all)chemistry.chemical_compoundAminoacidSettore CHIM/02Organic chemistryPhysical and Theoretical ChemistryAlkylcholine-amino acid ionic liquids EDXD; ion pairs; pre-peak; renewable materialschemistry.chemical_classificationSmall-angle X-ray scatteringSAXS; Choline; Phenylalanine; Aminoacids; Ionic liquidsAromaticitySAXS021001 nanoscience & nanotechnologyIonic liquids0104 chemical sciencesCrystallographychemistryIonic liquid0210 nano-technologyAminoacids

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Weak alkali and alkaline earth metal complexes of low molecular weight ligands in aqueous solution

2008

This work is aimed at reviewing the chemical literature dealing with thermodynamic aspects of the weak complex formation (species with log K values less than about 3) between alkali and alkaline earth metal ions with low molecular weight inorganic and organic ligands in aqueous solution. The following ligands (up to hexavalent anions) were examined in detail: (i) hydroxide, chloride, sulfate, carbonate and phosphate as inorganic, and (ii) carboxylates, amines, amino acids, complexones and nucleotides as organic ligands. The paper also identifies the main reasons responsible for the dispersion of the stability data on ion pairs in the literature. When possible, the trend of stability for the…

Ion pairsSupporting electrolyteMetal ions in aqueous solutionInorganic chemistryAlkali metal complexeWeak complexesChlorideAlkali metal complexes; Alkaline earth metal complexes; Weak complexes; Formation and stability in aqueous solution; Ion pairs.Inorganic Chemistrychemistry.chemical_compoundAlkali metal complexesAlkaline earth metal complexesMaterials ChemistrymedicineFormation and stability in aqueous solutionSettore CHIM/01 - Chimica AnaliticaPhysical and Theoretical ChemistryWeak complexeAlkaline earth metalAqueous solutionChemistryLigandAlkali metalAlkaline earth metal complexeHydroxidemedicine.drugCoordination Chemistry Reviews

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The influence of steric effects on the strength of some organic acids in toluene and water

MRH ion pair stability kinetic measurementsSettore CHIM/06 - Chimica Organica

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Nano into Micro Formulations of Tobramycin for the Treatment of Pseudomonas aeruginosa Infections in Cystic Fibrosis.

2017

Here, nano into micro formulations (NiMs) of tobramycin for the treatment of Pseudomonas aeruginosa airway infections in cystic fibrosis (CF) are described. NiMs were produced by spray drying a solution containing polymers or sugars and a nanometric polyanion–tobramcyin complex (PTC), able to achieve a prolonged antibiotic release. NiMs properties were compared to TOBIPodhaler(Novartis), the only one commercially available dry powder inhalatory formulation based on porous microparticles. Produced NiMs showed adequate characteristics for pulmonary administration, as spherical shape, micrometric size, and high cytocompatibility toward human bronchial epithelial cells. Contrarily to TOBIPodhal…

Tobramycin Cystic Fibrosis Artificial Mucus (CF-AM) αβ-poly-(N-2-hydroxyethyl)-DL-aspartamide (PHEA) ion pair complex nano into micro strategy Pseudomonas aeruginosa infections biofilmPolymers and PlasticsCystic FibrosisPolymersChemistry PharmaceuticalBioengineeringBronchi02 engineering and technologymedicine.disease_causeCystic fibrosisMicrobiologyBiomaterials03 medical and health sciences0302 clinical medicineDrug Delivery SystemsNano-Materials ChemistrymedicineTobramycinHumansPseudomonas InfectionsParticle SizeRespiratory Tract InfectionsCells CulturedDrug CarriersPseudomonas aeruginosaChemistryBiofilmDry Powder InhalersEpithelial Cells021001 nanoscience & nanotechnologyAntimicrobialmedicine.diseaseMucusPolyelectrolytesAnti-Bacterial Agents030228 respiratory systemSettore CHIM/09 - Farmaceutico Tecnologico ApplicativoSpray dryingBiofilmsDelayed-Action PreparationsPseudomonas aeruginosaTobramycinNanoparticles0210 nano-technologymedicine.drugBiomacromolecules

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Modelling of natural synthetic polyelectrolyte interactions in natural waters by using SIT, Pitzer and Ion Pairing approaches

2006

Abstract In this paper SIT and Pitzer models are used for the first time to describe the interactions of natural and synthetic polyelectrolytes in natural waters. Measurements were made potentiometrically at 25 °C in single electrolyte media, such as Et 4 NI and NaCl (for fulvic acid 0.1 − 1 S single salt ” BA, with cation B and anion A representing all the major cations (Na + , K + , Mg 2+ , Ca 2+ ) and anions (Cl − , SO 4 2− ) in natural sea water, respectively. The ion pair formation model was also applied to fulvate and alginate in artificial sea water by examining the interaction of polyanions with the single sea water cation. Results were compared with those obtained from previous sp…

chemistry.chemical_classificationChemistryArtificial seawatermedia_common.quotation_subjectNatural waterInorganic chemistryArtificial seawaterSalt (chemistry)General ChemistryElectrolyteOceanographyPitzerIon Pair modelsPolyelectrolyteIonSpeciationNatural and synthetic polyelectrolytes; Specific ion Interaction Theory (SIT); Pitzer; Ion Pair models; Dependence on medium and ionic strength; Alginic and fulvic acids; Artificial seawaterDependence on medium and ionic strengthNatural and synthetic polyelectrolytesEnvironmental ChemistrySeawaterSpecific ion Interaction Theory (SIT)Alginic and fulvic acidsWater Science and Technologymedia_common

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Electronic and Steric Effects: How Do They Work in Ionic Liquids? The Case of Benzoic Acid Dissociation

2010

The need to have a measure of the strength of some substituted benzoic acids in ionic liquid solution led us to use the protonation equilibrium of sodium p-nitrophenolate as a probe reaction, which was studied by means of spectrophotometric titration at 298 K. In order to evaluate the importance of electronic effect of the substituents present on the aromatic ring, both electron-withdrawing and -donor substituents were taken into account. Furthermore, to have a measure of the importance of the steric effect of the substituents both para- and ortho-substituted benzoic acids were analyzed. The probe reaction was studied in two ionic liquids differing for the ability of the cation to give hydr…

inorganic chemicalsSteric effectsionic liquids ion pair formation carboxylic acidsChemistryHydrogen bondorganic chemicalsOrganic ChemistryInorganic chemistryProtonationSettore CHIM/06 - Chimica OrganicaDissociation (chemistry)chemistry.chemical_compoundIonic liquidElectronic effectEquilibrium constantBenzoic acidThe Journal of Organic Chemistry

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