Fluoride ion conductivity of solid solutions KxPb0.86-xSn1.14F4-x

Fluoride ion conductivity of solid solutions KxPb0.86-xSn1.14F4-x

The electrical conductivity of solid solutions with tetragonal syngony formed in 0.86(xKF–(1–x)PbF2)–1.14SnF2 systems has been studied by 19F- -NMR and impedance spectroscopy. It was found that the Pb0.86Sn1.14F4 phase is characterized by better values of fluoride-ion conductivity than the β-PbSnF4...

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Main Authors: Pohorenko Yuliia, Pshenychnyi Roman, Pavlenko Tamara, Omel’chuk Anatoliy, Trachevskyi Volodymyr
Format: Article
Language:English
Published: Serbian Chemical Society 2021-01-01
Series:Journal of the Serbian Chemical Society
Subjects:
solid electrolytes
lead and tin fluorides
heterovalent substitution
impedance spectroscopy
19f nmr spectroscopy
Online Access:http://www.doiserbia.nb.rs/img/doi/0352-5139/2021/0352-51392100031P.pdf
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spelling doaj-c21218e8c6474623aa32312a0390aba82021-09-06T09:54:48ZengSerbian Chemical Society Journal of the Serbian Chemical Society0352-51391820-74212021-01-0186984585710.2298/JSC201124031P0352-51392100031PFluoride ion conductivity of solid solutions KxPb0.86-xSn1.14F4-xPohorenko Yuliia0https://orcid.org/0000-0001-7455-0222Pshenychnyi Roman1https://orcid.org/0000-0002-2560-9379Pavlenko Tamara2https://orcid.org/0000-0001-6074-0295Omel’chuk Anatoliy3https://orcid.org/0000-0002-8799-2115Trachevskyi Volodymyr4V.I. Vernadskii Institute of General and Inorganic Chemistry of the Ukrainian NAS, Kyiv, UkraineSumy State University, Sumy, UkraineV.I. Vernadskii Institute of General and Inorganic Chemistry of the Ukrainian NAS, Kyiv, UkraineV.I. Vernadskii Institute of General and Inorganic Chemistry of the Ukrainian NAS, Kyiv, UkraineG.V. Kurdyumov Institute of Metal Physics of the Ukrainian NAS, Kyiv, UkraineThe electrical conductivity of solid solutions with tetragonal syngony formed in 0.86(xKF–(1–x)PbF2)–1.14SnF2 systems has been studied by 19F- -NMR and impedance spectroscopy. It was found that the Pb0.86Sn1.14F4 phase is characterized by better values of fluoride-ion conductivity than the β-PbSnF4 compound. It was found that the substitution of Pb2+ by K+ up to х = 0.07 in the structure of Pb0.86Sn1.14F4 contributes to increase in electrical conductivity by an order of magnitude relative to the original Pb0.86Sn1.14F4. The sample of composition K0.03Pb0.83Sn1.14F3.97 has the highest electrical conductivity (σ600 = = 0.38 S cm-1, σ330 = 0.01 S cm-1). The fluoride anions in the synthesized samples of KxPb0.86-xSn1.14F4-x solid solutions occupy three structurally nonequivalent positions. It is shown that with increasing temperature, there is a redistribution of fluorine anions between positions in the anion lattice, which results in an increase in the concentration of highly mobile fluoride ions, which determine the electrical conductivity of the samples.http://www.doiserbia.nb.rs/img/doi/0352-5139/2021/0352-51392100031P.pdfsolid electrolyteslead and tin fluoridesheterovalent substitutionimpedance spectroscopy19f nmr spectroscopy
collection DOAJ
language English
format Article
sources DOAJ
author Pohorenko Yuliia
Pshenychnyi Roman
Pavlenko Tamara
Omel’chuk Anatoliy
Trachevskyi Volodymyr
spellingShingle Pohorenko Yuliia
Pshenychnyi Roman
Pavlenko Tamara
Omel’chuk Anatoliy
Trachevskyi Volodymyr
Fluoride ion conductivity of solid solutions KxPb0.86-xSn1.14F4-x
Journal of the Serbian Chemical Society
solid electrolytes
lead and tin fluorides
heterovalent substitution
impedance spectroscopy
19f nmr spectroscopy
author_facet Pohorenko Yuliia
Pshenychnyi Roman
Pavlenko Tamara
Omel’chuk Anatoliy
Trachevskyi Volodymyr
author_sort Pohorenko Yuliia
title Fluoride ion conductivity of solid solutions KxPb0.86-xSn1.14F4-x
title_short Fluoride ion conductivity of solid solutions KxPb0.86-xSn1.14F4-x
title_full Fluoride ion conductivity of solid solutions KxPb0.86-xSn1.14F4-x
title_fullStr Fluoride ion conductivity of solid solutions KxPb0.86-xSn1.14F4-x
title_full_unstemmed Fluoride ion conductivity of solid solutions KxPb0.86-xSn1.14F4-x
title_sort fluoride ion conductivity of solid solutions kxpb0.86-xsn1.14f4-x
publisher Serbian Chemical Society
series Journal of the Serbian Chemical Society
issn 0352-5139
1820-7421
publishDate 2021-01-01
description The electrical conductivity of solid solutions with tetragonal syngony formed in 0.86(xKF–(1–x)PbF2)–1.14SnF2 systems has been studied by 19F- -NMR and impedance spectroscopy. It was found that the Pb0.86Sn1.14F4 phase is characterized by better values of fluoride-ion conductivity than the β-PbSnF4 compound. It was found that the substitution of Pb2+ by K+ up to х = 0.07 in the structure of Pb0.86Sn1.14F4 contributes to increase in electrical conductivity by an order of magnitude relative to the original Pb0.86Sn1.14F4. The sample of composition K0.03Pb0.83Sn1.14F3.97 has the highest electrical conductivity (σ600 = = 0.38 S cm-1, σ330 = 0.01 S cm-1). The fluoride anions in the synthesized samples of KxPb0.86-xSn1.14F4-x solid solutions occupy three structurally nonequivalent positions. It is shown that with increasing temperature, there is a redistribution of fluorine anions between positions in the anion lattice, which results in an increase in the concentration of highly mobile fluoride ions, which determine the electrical conductivity of the samples.
topic solid electrolytes
lead and tin fluorides
heterovalent substitution
impedance spectroscopy
19f nmr spectroscopy
url http://www.doiserbia.nb.rs/img/doi/0352-5139/2021/0352-51392100031P.pdf
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AT pshenychnyiroman fluorideionconductivityofsolidsolutionskxpb086xsn114f4x
AT pavlenkotamara fluorideionconductivityofsolidsolutionskxpb086xsn114f4x
AT omelchukanatoliy fluorideionconductivityofsolidsolutionskxpb086xsn114f4x
AT trachevskyivolodymyr fluorideionconductivityofsolidsolutionskxpb086xsn114f4x
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