Search results for "Fast ion conductor"

showing 6 items of 16 documents

Quaternary ammonium polyiodides as ionic liquid/soft solid electrolytes in dye-sensitized solar cells

2007

Abstract Four new quaternary ammonium iodides, (Me 2 Pe 2 N)I, (Me 2 Hex 2 N)I, (Et 2 Pe 2 N)I and (Et 2 Hex 2 N)I, were synthesized and studied as electrolytes in dye-sensitized solar cells. All compounds were solids at room temperature. Influence of varying amounts of elemental iodine and the effect of tert -butylpyridine (TBP) on the performance of the cell was also studied. Addition of iodine lowered the melting points of the resulting polyiodides. From the ammonium iodides only (Me 2 Hex 2 N)I:I 2 (10:1) was liquid at the room temperature and the others were soft solids. Under illumination from a halogen lamp source at 10 mW cm −2 intensity, the highest power conversion efficiency of 2…

General Chemical EngineeringInorganic chemistryGeneral Physics and Astronomychemistry.chemical_elementGeneral ChemistryElectrolyteIodinechemistry.chemical_compoundPolyiodideDye-sensitized solar cellchemistryIonic liquidMelting pointFast ion conductorAmmoniumJournal of Photochemistry and Photobiology A: Chemistry
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Dielectric Dispersion and Ion Conductivity in High-Pressure LixNaw1-xNbO3Solid Solutions

2009

Thermal behaviour and dispersion of dielectric permeability and thermal behaviour of conductivity measured in ferroelectric ceramic solid solutions of Li x Na 1−x NbO 3 (x = 0.17, 0.25) synthesized at high pressure and possessing extended region of homogeneity are reported. The Li x Na 1−x NbO 3 (x = 0.17, 0.25) solid solutions of perovskite structure are found to be super-ionic conductors at rather low temperatures O ≥ 400 K. Dielectric dispersion and anomalous behaviour of dielectric permeability are observed in the thermal range of super-ionic conductivity corresponding to structural transformations in the high-pressure solid solutions.

Materials scienceAnalytical chemistryDielectricConductivityCondensed Matter PhysicsFerroelectricityElectronic Optical and Magnetic MaterialsThermal conductivityvisual_artvisual_art.visual_art_mediumFast ion conductorIonic conductivityCeramicSolid solutionFerroelectrics
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Recent Progress in the Development of Composite Membranes Based on Polybenzimidazole for High Temperature Proton Exchange Membrane (PEM) Fuel Cell Ap…

2020

[EN] The rapid increasing of the population in combination with the emergence of new energy-consuming technologies has risen worldwide total energy consumption towards unprecedent values. Furthermore, fossil fuel reserves are running out very quickly and the polluting greenhouse gases emitted during their utilization need to be reduced. In this scenario, a few alternative energy sources have been proposed and, among these, proton exchange membrane (PEM) fuel cells are promising. Recently, polybenzimidazole-based polymers, featuring high chemical and thermal stability, in combination with fillers that can regulate the proton mobility, have attracted tremendous attention for their roles as PE…

Materials sciencePolymers and PlasticspolymerPopulationCarbon nanotubesMetal organic frameworksProton exchange membrane fuel cellNanotechnologyReviewfuel cellsProton exchange membranelcsh:QD241-441lcsh:Organic chemistryFast ion conductorFuel cellsPolymereducationGraphene oxidechemistry.chemical_classificationConductivityeducation.field_of_studybusiness.industryFossil fuelComposite membranesGeneral ChemistryPolymerPolybenzimidazoleIonic liquidspolybenzimidazolechemistryMAQUINAS Y MOTORES TERMICOSAlternative energyFuel cellsComposite membraneconductivitybusinesscomposite membranesproton exchange membranePolymers
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Phase transitions in Ag-based solid electrolytes as detected by thermosonimetry

2001

Abstract Observations of the acoustic emission accompanying the solid–solid (polymorphic) phase changes in silver iodide and silver chalcogenides were performed. It has been found that the temperature dependencies of both the number of acoustic events and their counting rate, registered when heating the investigated materials, display distinct anomalies at the temperature corresponding to the polymorphic phase transition occurring in a given substance. The phase transition temperatures determined from the position of these anomalies agree well with the results of control DSC measurements, as well as with the literature data on the temperatures of the transition of investigated materials to …

Phase transitionChemistryAnalytical chemistrySilver iodideMineralogyConductivityCondensed Matter Physicschemistry.chemical_compoundAcoustic emissionPolymorphism (materials science)Fast ion conductorPhysical and Theoretical ChemistryThermal analysisInstrumentationCounting rateThermochimica Acta
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Giant barocaloric effects over a wide temperature range in superionic conductor AgI

2017

Current interest in barocaloric effects has been stimulated by the discovery that these pressure-driven thermal changes can be giant near ferroic phase transitions in materials that display magnetic or electrical order. Here we demonstrate giant inverse barocaloric effects in the solid electrolyte AgI, near its superionic phase transition at ~420 K. Over a wide range of temperatures, hydrostatic pressure changes of 2.5 kbar yield large and reversible barocaloric effects, resulting in large values of refrigerant capacity. Moreover, the peak values of isothermal entropy change (60 J K−1 kg−1 or 0.34 J K−1 cm−3) and adiabatic temperature changes (18 K), which we identify for a starting tempera…

Phase transitionMaterials scienceThermal propertiesScienceHydrostatic pressureGeneral Physics and Astronomy02 engineering and technologyElectrolytePropietats tèrmiques7. Clean energy01 natural sciencesGeneral Biochemistry Genetics and Molecular BiologyIsothermal processArticle0103 physical sciencesThermalMagnetic propertiesFast ion conductorlcsh:Science010306 general physicsAdiabatic processMultidisciplinaryCondensed matter physicsPropietats magnètiquesQGeneral ChemistryAtmospheric temperature rangeCiència dels materials021001 nanoscience & nanotechnologyMaterials science0403 Geologylcsh:Q0210 nano-technologyNature Communications
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Solid state ionics and optical materials technology for energy efficiency, solar energy conversion, and environment control

1991

The fundamental electronic properties (including optical) of a solid are determined by the character of the interaction between its ionic and electronic subsystems. The state of the ionic subsystem can be changed persistently and reversibly by an external stimulus (current, light). The pertinent ion-controlled phenomena in the solids (solid electrolytes or mixed conductors) causes the ions to be inserted, extracted, transferred, or absorbed or transforms the states of the ions by redox reactions in the bulk or on the surface of the solid or on the interface of a (laminar or planar) solid ionic heterosystem. Several functions can be accomplished: (1) the optical response function of the soli…

Solid state ionicsChemical speciesMaterials sciencebusiness.industryElectrochromismFast ion conductorOptoelectronicsIonic bondingMoleculeEnergy transformationbusinessIonSPIE Proceedings
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