Influence of cation substitution on electrical conductivity of microcrystalline ceramics based on (Cu1-xAgx)7GeSe5I solid solutions

Studenyak, I.P.; Погодін, А.І.; Studenyak, V.I.; Malakhovska, T.O.; Filep, M.J.; Кохан, О.П.; Takats, V.; Kökényesi, S.

doi:10.15407/spqeo24.02.131

SPQEO

2021

DOI: 10.15407/spqeo24.02.131

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Influence of cation substitution on electrical conductivity of microcrystalline ceramics based on (Cu1-xAgx)7GeSe5I solid solutions

I.P. Studenyak¹,

А.І. Погодін²,

V.I. Studenyak³

et al.

Abstract: Ceramic samples based on the microcrystalline powders (Cu1–хAgx)7GeSe5I (x = 0, 0.25, 0.5, 0.75, 1) were prepared by pressing them at the pressure close to 400 MPa and subsequent annealing at 873 K for 36 hours. Using the microstructural analysis, the average size of microcrystallites of these samples was determined. Investigation of electrical conductivity of ceramics based on (Cu1 хAgx)7GeSe5I solid solutions was carried out using the method of impedance spectroscopy in the frequency range from 10 Hz to 3×10… Show more

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Mechanical properties of superionic ceramics based on (Cu1–xAgx)7GeSe5I solid solutions

Bilanych¹,

Babilya²,

Korovska³

et al. 2021

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Cu1–xAgx)7GeSe5I-based ceramics were prepared by pressing and sintering from the micro- and nanopowders. The ceramic samples were investigated using microstructural analysis. The microhardness was measured applying the indentation method with use of the Vickers pyramid. It has been shown that the microhardness of (Cu1–xAgx)7GeSe5I-based ceramics decreases with copper content decrease at Cu+→Ag+cationic substitution. The compositional dependences and size effects of microhardness inherent to (Cu1–xAgx)7GeSe5I-based ceramics have been analyzed. The size effects of microindentation have been interpreted within the framework of the gradient theory of plasticity.

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Mechanical properties of superionic ceramics based on (Cu1–xAgx)7GeSe5I solid solutions

Bilanych¹,

Babilya²,

Korovska³

et al. 2021

SPQEO

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Influence of cation substitution on electrical conductivity of microcrystalline ceramics based on (Cu1-xAgx)7GeSe5I solid solutions

Cited by 1 publication

References 35 publications

Mechanical properties of superionic ceramics based on (Cu1–xAgx)7GeSe5I solid solutions

Mechanical properties of superionic ceramics based on (Cu1–xAgx)7GeSe5I solid solutions

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