Search results for "ionic conductivity"

showing 6 items of 56 documents

Gelled Electrolyte Containing Phosphonium Ionic Liquids for Lithium-Ion Batteries

2018

In this work, new gelled electrolytes were prepared based on a mixture containing phosphonium ionic liquid (IL) composed of trihexyl(tetradecyl)phosphonium cation combined with bis(trifluoromethane)sulfonimide [TFSI] counter anions and lithium salt, confined in a host network made from an epoxy prepolymer and amine hardener. We have demonstrated that the addition of electrolyte plays a key role on the kinetics of polymerization but also on the final properties of epoxy networks, especially thermal, thermo-mechanical, transport, and electrochemical properties. Thus, polymer electrolytes with excellent thermal stability (&gt

[CHIM.POLY] Chemical Sciences/PolymersMaterials scienceGeneral Chemical Engineeringchemistry.chemical_elementelectrolytes02 engineering and technologyElectrolyte010402 general chemistryElectrochemistry01 natural sciences7. Clean energyArticlelcsh:Chemistryionic liquidschemistry.chemical_compoundIonic conductivityGeneral Materials ScienceThermal stabilityPhosphoniumComputingMilieux_MISCELLANEOUS[CHIM.MATE] Chemical Sciences/Material chemistrythermosets[CHIM.MATE]Chemical Sciences/Material chemistry021001 nanoscience & nanotechnology0104 chemical sciences[CHIM.POLY]Chemical Sciences/Polymerslcsh:QD1-999Lithium saltschemistryChemical engineeringPolymerizationIonic liquidLithium0210 nano-technology
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Single particle jumps and correlated ionic motions in glass-ceramics

1993

Using impedance spectroscopy, the ion transport in poorly Li-conducting aluminosilicate glass ceramics and their precursor glasses has been measured for temperatures 50 K < T < 550 K and covering a frequency range of more than 14 decades from 10 mHz up to 3 THz. In addition to the familiar cooperative ionic motion dominating at high temperatures, for the first time dielectric relaxation due to elementary hopping processes is observed well below room temperature.

chemistry.chemical_classificationAnalytical chemistryMineralogyIonic bondingCondensed Matter Physics530Electronic Optical and Magnetic MaterialsDielectric spectroscopychemistryAluminosilicatevisual_artMaterials ChemistryCeramics and Compositesvisual_art.visual_art_mediumIonic conductivityParticleDielectric lossCeramicInorganic compound
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Investigation on lithium/polymer electrolyte interface for high performance lithium rechargeable batteries

1997

Abstract Performance data of several linear and cross-linked polymer electrolytes are reported and the electrochemical criteria for the selection of electrolytes to be used in electric vehicle lithium metal batteries are discussed. Further, laboratory lithium cells with LiMn2O4 composite cathode were tested to ascertain the effective viability of these polymer in solid-state batteries and preliminary results are reported. This study clearly demonstrates the importance of a broad-based electrochemical characterization in selecting an electrolyte for lithium metal batteries.

chemistry.chemical_classificationMaterials sciencebusiness.product_categoryLithium vanadium phosphate batteryRenewable Energy Sustainability and the EnvironmentInorganic chemistryEnergy Engineering and Power Technologychemistry.chemical_elementElectrolytePolymerElectrochemistrychemistry.chemical_compoundchemistryChemical engineeringElectric vehicleIonic conductivityLithiumLithium oxideElectrical and Electronic EngineeringPhysical and Theoretical ChemistrybusinessJournal of Power Sources
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Fabrication of soft-etched nanoporous polyimide membranes for ionic conduction and discrimination

2021

Abstract Ionic selectivity in nanopores is usually based either on steric or charge exclusion mechanisms. By simultaneously incorporating both mechanisms into a functionalized membrane, an improved control over selectivity can be achieved. We describe the fabrication and experimental characterization of alkali metal cation-selective nanopores in heavy ion-tracked polyimide (PI) membranes using the soft-etching (SE) technique. The latent ion tracks in the PI membrane are selectively dissolved by an organic solvent to form tiny pores without affecting the bulk material. The ionic transport properties of SE-PI membranes are characterized using different electrolyte solutions containing alkali …

chemistry.chemical_classificationNanoporousInorganic chemistryIonic bondingFiltration and Separation02 engineering and technologyElectrolyte010402 general chemistry021001 nanoscience & nanotechnologyAlkali metal01 natural sciencesBiochemistry0104 chemical sciencesDivalentSolventMembranechemistryIonic conductivityGeneral Materials SciencePhysical and Theoretical Chemistry0210 nano-technologyJournal of Membrane Science
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Universal Transients in Polymer and Ionic Transition Metal Complex Light-Emitting Electrochemical Cells

2012

Two types of light-emitting electrochemical cells (LECs) are commonly distinguished, the polymer-based LEC (p-LEC) and the ionic transition metal complex-based LEC (iTMC-LEC). Apart from marked differences in the active layer constituents, these LEC types typically show operational time scales that can differ by many orders of magnitude at room temperature. Here, we demonstrate that despite these differences p-LECs and iTMC-LECs show current, light output, and efficacy transients that follow a universal shape. Moreover, we conclude that the turn-on time of both LEC types is dominated by the ion conductivity because the turn-on time exhibits the same activation energy as the ion conductivity…

chemistry.chemical_classificationOrganic solar cellChemistryAnalytical chemistryIonic bonding02 engineering and technologyGeneral ChemistryPolymerConductivityElectroluminescence010402 general chemistry021001 nanoscience & nanotechnology7. Clean energy01 natural sciencesBiochemistryCatalysis0104 chemical sciencesElectrochemical cellIonColloid and Surface ChemistryChemical physicsIonic conductivity0210 nano-technologyJournal of the American Chemical Society
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Modeling of surface vs. bulk ionic conductivity in fixed charge membranes

2003

A two-region model for describing the conductivity of porous fixed charge membranes is proposed. In the surface region, the conductivity is due to the mobile positive ions (counterions) around the negative fixed charges. In the pore center region, the conductive properties resemble those of the external electrolyte solution because the fixed charges are assumed to be effectively neutralized by the counterions in the surface region. Activation energies and surface diffusion coefficients are estimated by assuming that the counterion jump from a fixed charge group is the rate limiting process for surface transport. The barrier energy for this jump is calculated using a simple electrostatic mod…

inorganic chemicalsSurface diffusionchemistry.chemical_classificationPhysics::Biological PhysicsChemistryAnalytical chemistryGeneral Physics and AstronomyThermodynamicsElectrolyteConductivityIonSurface conductivityMembraneIonic conductivityPhysical and Theoretical ChemistryCounterionPhys. Chem. Chem. Phys.
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