Features of proton transport in composite electrolytes based on acid ammonium salt of 12-phosphotungstic acid and calixarene

The physicochemical properties of composite solid electrolytes based on acid ammonium salt of 12-phosphotungstic acid and calixarene sulfonic acid with uniform distribution were investigated. The proton conductivity was determined by the content and conductivity of calixarene and has the form of a s...

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Published in:Solid state ionics 2022-04, Vol.377, p.115887, Article 115887
Main Authors: Shmygleva, L.V., Leonova, L.S., Kayumov, R.R., Shilov, G.V.
Format: Article
Language:English
Subjects:
Acid ammonium salt
Calixarene
Calixarenes
Chemicals
Conductivity
Electrolytes
Heteropoly compound
Moisture content
Molten salt electrolytes
Phase transitions
Phosphotungstic acid
Proton conductivity
Protons
Solid composite electrolyte
Solid electrolytes
Spectrum analysis
Sulfonic acid
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container_title Solid state ionics
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creator Shmygleva, L.V.
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description The physicochemical properties of composite solid electrolytes based on acid ammonium salt of 12-phosphotungstic acid and calixarene sulfonic acid with uniform distribution were investigated. The proton conductivity was determined by the content and conductivity of calixarene and has the form of a saturation curve with reaching its maximum (0.1 S/cm at 20 °C and 75% RH) at a mole fraction of calixarene of 0.4. It was found that the water content and the activation energy of conduction nonmonotonically depend on the calixarene content with an extremum at the same calixarene content of ~0.4 (0.13 eV at 75% RH). The samples with a composition close to optimal do not experience phase transitions in wide range of temperature (from +60 to −60 °C). The observed behavior was explained on the basis of the results obtained with the help of differential scanning calorimetry, gravimetry, X-ray diffraction, scanning electron microscopy and impedance spectroscopy. •Impregnation allows obtaining electrolytes with a uniform distribution of components.•Addition of calixarene to the salt improves conductive properties of composites.•Proton conductivity is determined by the salt–calixarene boundary effects.•There is an optimal electrolyte composition.
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subjects Acid ammonium salt
Calixarene
Calixarenes
Chemicals
Conductivity
Electrolytes
Heteropoly compound
Moisture content
Molten salt electrolytes
Phase transitions
Phosphotungstic acid
Proton conductivity
Protons
Solid composite electrolyte
Solid electrolytes
Spectrum analysis
Sulfonic acid
title Features of proton transport in composite electrolytes based on acid ammonium salt of 12-phosphotungstic acid and calixarene
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