Phase Equilibria in the Ag–Ge–Bi–Te System and Thermodynamic Properties of the nGeTe×mBi2Te3 (n, m = 1-4) Layered Compounds

Mykola Moroz; Fiseha Tesfaye; Pavlo Demchenko; Myroslava Prokhorenko; Orest  Pereviznyk; Bohdan Rudyk; Lyudmyla Soliak; Daniel Lindberg; Oleksandr Reshetnyak; Leena Hupa

doi:10.1007/978-3-030-92381-5_7

Phase Equilibria in the Ag–Ge–Bi–Te System and Thermodynamic Properties of the nGeTe×mBi2Te3 (n, m = 1-4) Layered Compounds

Mykola Moroz^*, Fiseha Tesfaye, Pavlo Demchenko, Myroslava Prokhorenko, Orest Pereviznyk, Bohdan Rudyk, Lyudmyla Soliak, Daniel Lindberg, Oleksandr Reshetnyak, Leena Hupa

^*Corresponding author for this work

Research output: Chapter in Book/Conference proceeding › Conference contribution › Scientific › peer-review

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Abstract

Phase equilibria of the Ag–Ge–Bi–Te system in the part GeTe–Ag ₈GeTe ₆–Te–Bi ₂Te ₃ (I) were established by the electromotive force (EMF) method with a solid Ag ⁺ conducting electrolyte. It was shown that the concentration space of (I) in the part 4GeTe⋅Bi ₂Te ₃–Ag ₈GeTe ₆–Te–Bi ₂Te consists of 8 four-phase regions, formed of the layered compounds of the nGeTe⋅mBi ₂Te ₃ (n, m = 1–4) homologous range, as well as Ag ₈GeTe ₆, Bi ₂Te ₃, and Te. Equations of overall potential-forming reaction of the decomposition and synthesis of compounds of the homologous range were written for each region. Reactions were performed in the following electrochemical cells (ECCs) (−)IE | Ag | SE | PE | IE(+), where IE is the inert electrode (graphite), Ag is the negative (left) electrode, SE is the solid-state Ag ⁺ ion-conducting electrolyte, PE is the positive (right) electrode. PEs of ECCs were prepared by melting of a mixture of the high-purity elements Ag, Ge, Bi, and Te. The component ratios in samples were determined based on the equations of the potential-forming reactions in respective phase Phase equilibria regions. The finely grounded samples were used as PEs of ECCs. The synthesis of an equilibrium set of phases was performed in the part of PE that is in contact with SE of ECC at T = 580 K for 50 h. Silver cations that shift from the left to the right electrode acted as the nucleation centers of equilibrium compounds in the corresponding phase regions. Linear dependences E versus T of ECCs in the range of T = (440–500) K were used to calculate values of the Gibbs energies, enthalpies of formation, and entropies of compounds GeTe⋅4Bi ₂Te ₃, GeTe⋅3Bi ₂Te ₃, GeTe⋅2.5Bi ₂Te ₃, GeTe⋅2Bi ₂Te ₃, GeTe⋅Bi ₂Te ₃, 2GeTe⋅Bi ₂Te ₃, 3GeTe⋅Bi ₂Te ₃, and 4GeTe⋅Bi ₂Te ₃. The differences in the values of the thermodynamic functions of GeTe-rich and Bi ₂Te ₃-rich compounds with respect to GeTe⋅Bi ₂Te ₃ correlate well with the literature data on the differences of their crystal structures.

Original language	English
Title of host publication	TMS 2022 151st Annual Meeting and Exhibition Supplemental Proceedings
Place of Publication	Switzerland AG
Publisher	Springer International Publishing
Chapter	7
Pages	60-73
Number of pages	14
Volume	1
Edition	1
ISBN (Electronic)	978-3-030-92381-5
ISBN (Print)	9783030923808
DOIs	https://doi.org/10.1007/978-3-030-92381-5_7
Publication status	Published - 1 Jan 2022
MoE publication type	A4 Article in a conference publication
Event	TMS 2022 Annual Meeting & Exhibition - Anaheim Convention Center & Anaheim Marriott , Anaheim, United States Duration: 27 Feb 2022 → 3 Mar 2022 Conference number: 151 https://www.tms.org/AnnualMeeting/TMS2022

Publication series

Name	Minerals, Metals and Materials Series
ISSN (Print)	2367-1181
ISSN (Electronic)	2367-1696

Conference

Conference	TMS 2022 Annual Meeting & Exhibition
Abbreviated title	TMS2022
Country/Territory	United States
City	Anaheim
Period	27/02/22 → 03/03/22
Internet address	https://www.tms.org/AnnualMeeting/TMS2022

Keywords

Layered Compounds
Phase equilibria
Thermodynamic properties
EMF method
Gibbs energy

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https://urn.fi/URN:NBN:fi-fe202301021019

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Moroz, M., Tesfaye, F., Demchenko, P., Prokhorenko, M., Pereviznyk, O., Rudyk, B., Soliak, L., Lindberg, D., Reshetnyak, O., & Hupa, L. (2022). Phase Equilibria in the Ag–Ge–Bi–Te System and Thermodynamic Properties of the nGeTe×mBi2Te3 (n, m = 1-4) Layered Compounds. In TMS 2022 151st Annual Meeting and Exhibition Supplemental Proceedings (1 ed., Vol. 1, pp. 60-73). (Minerals, Metals and Materials Series). Springer International Publishing. https://doi.org/10.1007/978-3-030-92381-5_7

Moroz, Mykola ; Tesfaye, Fiseha ; Demchenko, Pavlo et al. / Phase Equilibria in the Ag–Ge–Bi–Te System and Thermodynamic Properties of the nGeTe×mBi2Te3 (n, m = 1-4) Layered Compounds. TMS 2022 151st Annual Meeting and Exhibition Supplemental Proceedings. Vol. 1 1. ed. Switzerland AG : Springer International Publishing, 2022. pp. 60-73 (Minerals, Metals and Materials Series).

@inproceedings{1586a9784a6f415dbc64b948ca0f1ba8,

title = "Phase Equilibria in the Ag–Ge–Bi–Te System and Thermodynamic Properties of the nGeTe×mBi2Te3 (n, m = 1-4) Layered Compounds",

abstract = "Phase equilibria of the Ag–Ge–Bi–Te system in the part GeTe–Ag 8GeTe 6–Te–Bi 2Te 3 (I) were established by the electromotive force (EMF) method with a solid Ag + conducting electrolyte. It was shown that the concentration space of (I) in the part 4GeTe⋅Bi 2Te 3–Ag 8GeTe 6–Te–Bi 2Te consists of 8 four-phase regions, formed of the layered compounds of the nGeTe⋅mBi 2Te 3 (n, m = 1–4) homologous range, as well as Ag 8GeTe 6, Bi 2Te 3, and Te. Equations of overall potential-forming reaction of the decomposition and synthesis of compounds of the homologous range were written for each region. Reactions were performed in the following electrochemical cells (ECCs) (−)IE | Ag | SE | PE | IE(+), where IE is the inert electrode (graphite), Ag is the negative (left) electrode, SE is the solid-state Ag + ion-conducting electrolyte, PE is the positive (right) electrode. PEs of ECCs were prepared by melting of a mixture of the high-purity elements Ag, Ge, Bi, and Te. The component ratios in samples were determined based on the equations of the potential-forming reactions in respective phase Phase equilibria regions. The finely grounded samples were used as PEs of ECCs. The synthesis of an equilibrium set of phases was performed in the part of PE that is in contact with SE of ECC at T = 580 K for 50 h. Silver cations that shift from the left to the right electrode acted as the nucleation centers of equilibrium compounds in the corresponding phase regions. Linear dependences E versus T of ECCs in the range of T = (440–500) K were used to calculate values of the Gibbs energies, enthalpies of formation, and entropies of compounds GeTe⋅4Bi 2Te 3, GeTe⋅3Bi 2Te 3, GeTe⋅2.5Bi 2Te 3, GeTe⋅2Bi 2Te 3, GeTe⋅Bi 2Te 3, 2GeTe⋅Bi 2Te 3, 3GeTe⋅Bi 2Te 3, and 4GeTe⋅Bi 2Te 3. The differences in the values of the thermodynamic functions of GeTe-rich and Bi 2Te 3-rich compounds with respect to GeTe⋅Bi 2Te 3 correlate well with the literature data on the differences of their crystal structures. ",

keywords = "Layered Compounds, Phase equilibria, Thermodynamic properties, EMF method, Gibbs energy",

author = "Mykola Moroz and Fiseha Tesfaye and Pavlo Demchenko and Myroslava Prokhorenko and Orest Pereviznyk and Bohdan Rudyk and Lyudmyla Soliak and Daniel Lindberg and Oleksandr Reshetnyak and Leena Hupa",

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doi = "10.1007/978-3-030-92381-5_7",

language = "English",

isbn = "9783030923808",

volume = "1",

series = "Minerals, Metals and Materials Series",

publisher = "Springer International Publishing",

pages = "60--73",

booktitle = "TMS 2022 151st Annual Meeting and Exhibition Supplemental Proceedings",

edition = "1",

note = "TMS 2022 Annual Meeting & Exhibition, TMS2022 ; Conference date: 27-02-2022 Through 03-03-2022",

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Moroz, M, Tesfaye, F, Demchenko, P, Prokhorenko, M, Pereviznyk, O, Rudyk, B, Soliak, L, Lindberg, D, Reshetnyak, O & Hupa, L 2022, Phase Equilibria in the Ag–Ge–Bi–Te System and Thermodynamic Properties of the nGeTe×mBi2Te3 (n, m = 1-4) Layered Compounds. in TMS 2022 151st Annual Meeting and Exhibition Supplemental Proceedings. 1 edn, vol. 1, Minerals, Metals and Materials Series, Springer International Publishing, Switzerland AG, pp. 60-73, TMS 2022 Annual Meeting & Exhibition, Anaheim, United States, 27/02/22. https://doi.org/10.1007/978-3-030-92381-5_7

Phase Equilibria in the Ag–Ge–Bi–Te System and Thermodynamic Properties of the nGeTe×mBi2Te3 (n, m = 1-4) Layered Compounds. / Moroz, Mykola; Tesfaye, Fiseha; Demchenko, Pavlo et al.
TMS 2022 151st Annual Meeting and Exhibition Supplemental Proceedings. Vol. 1 1. ed. Switzerland AG: Springer International Publishing, 2022. p. 60-73 (Minerals, Metals and Materials Series).

Research output: Chapter in Book/Conference proceeding › Conference contribution › Scientific › peer-review

TY - GEN

T1 - Phase Equilibria in the Ag–Ge–Bi–Te System and Thermodynamic Properties of the nGeTe×mBi2Te3 (n, m = 1-4) Layered Compounds

AU - Moroz, Mykola

AU - Tesfaye, Fiseha

AU - Demchenko, Pavlo

AU - Prokhorenko, Myroslava

AU - Pereviznyk, Orest

AU - Rudyk, Bohdan

AU - Soliak, Lyudmyla

AU - Lindberg, Daniel

AU - Reshetnyak, Oleksandr

AU - Hupa, Leena

N1 - Conference code: 151

PY - 2022/1/1

Y1 - 2022/1/1

N2 - Phase equilibria of the Ag–Ge–Bi–Te system in the part GeTe–Ag 8GeTe 6–Te–Bi 2Te 3 (I) were established by the electromotive force (EMF) method with a solid Ag + conducting electrolyte. It was shown that the concentration space of (I) in the part 4GeTe⋅Bi 2Te 3–Ag 8GeTe 6–Te–Bi 2Te consists of 8 four-phase regions, formed of the layered compounds of the nGeTe⋅mBi 2Te 3 (n, m = 1–4) homologous range, as well as Ag 8GeTe 6, Bi 2Te 3, and Te. Equations of overall potential-forming reaction of the decomposition and synthesis of compounds of the homologous range were written for each region. Reactions were performed in the following electrochemical cells (ECCs) (−)IE | Ag | SE | PE | IE(+), where IE is the inert electrode (graphite), Ag is the negative (left) electrode, SE is the solid-state Ag + ion-conducting electrolyte, PE is the positive (right) electrode. PEs of ECCs were prepared by melting of a mixture of the high-purity elements Ag, Ge, Bi, and Te. The component ratios in samples were determined based on the equations of the potential-forming reactions in respective phase Phase equilibria regions. The finely grounded samples were used as PEs of ECCs. The synthesis of an equilibrium set of phases was performed in the part of PE that is in contact with SE of ECC at T = 580 K for 50 h. Silver cations that shift from the left to the right electrode acted as the nucleation centers of equilibrium compounds in the corresponding phase regions. Linear dependences E versus T of ECCs in the range of T = (440–500) K were used to calculate values of the Gibbs energies, enthalpies of formation, and entropies of compounds GeTe⋅4Bi 2Te 3, GeTe⋅3Bi 2Te 3, GeTe⋅2.5Bi 2Te 3, GeTe⋅2Bi 2Te 3, GeTe⋅Bi 2Te 3, 2GeTe⋅Bi 2Te 3, 3GeTe⋅Bi 2Te 3, and 4GeTe⋅Bi 2Te 3. The differences in the values of the thermodynamic functions of GeTe-rich and Bi 2Te 3-rich compounds with respect to GeTe⋅Bi 2Te 3 correlate well with the literature data on the differences of their crystal structures.

AB - Phase equilibria of the Ag–Ge–Bi–Te system in the part GeTe–Ag 8GeTe 6–Te–Bi 2Te 3 (I) were established by the electromotive force (EMF) method with a solid Ag + conducting electrolyte. It was shown that the concentration space of (I) in the part 4GeTe⋅Bi 2Te 3–Ag 8GeTe 6–Te–Bi 2Te consists of 8 four-phase regions, formed of the layered compounds of the nGeTe⋅mBi 2Te 3 (n, m = 1–4) homologous range, as well as Ag 8GeTe 6, Bi 2Te 3, and Te. Equations of overall potential-forming reaction of the decomposition and synthesis of compounds of the homologous range were written for each region. Reactions were performed in the following electrochemical cells (ECCs) (−)IE | Ag | SE | PE | IE(+), where IE is the inert electrode (graphite), Ag is the negative (left) electrode, SE is the solid-state Ag + ion-conducting electrolyte, PE is the positive (right) electrode. PEs of ECCs were prepared by melting of a mixture of the high-purity elements Ag, Ge, Bi, and Te. The component ratios in samples were determined based on the equations of the potential-forming reactions in respective phase Phase equilibria regions. The finely grounded samples were used as PEs of ECCs. The synthesis of an equilibrium set of phases was performed in the part of PE that is in contact with SE of ECC at T = 580 K for 50 h. Silver cations that shift from the left to the right electrode acted as the nucleation centers of equilibrium compounds in the corresponding phase regions. Linear dependences E versus T of ECCs in the range of T = (440–500) K were used to calculate values of the Gibbs energies, enthalpies of formation, and entropies of compounds GeTe⋅4Bi 2Te 3, GeTe⋅3Bi 2Te 3, GeTe⋅2.5Bi 2Te 3, GeTe⋅2Bi 2Te 3, GeTe⋅Bi 2Te 3, 2GeTe⋅Bi 2Te 3, 3GeTe⋅Bi 2Te 3, and 4GeTe⋅Bi 2Te 3. The differences in the values of the thermodynamic functions of GeTe-rich and Bi 2Te 3-rich compounds with respect to GeTe⋅Bi 2Te 3 correlate well with the literature data on the differences of their crystal structures.

KW - Layered Compounds

KW - Phase equilibria

KW - Thermodynamic properties

KW - EMF method

KW - Gibbs energy

UR - http://www.programmaster.org/PM/PM.nsf/ApprovedAbstracts/F5419B6F6F8D1316852586F600642A9D?OpenDocument

U2 - 10.1007/978-3-030-92381-5_7

DO - 10.1007/978-3-030-92381-5_7

M3 - Conference contribution

SN - 9783030923808

VL - 1

T3 - Minerals, Metals and Materials Series

SP - 60

EP - 73

BT - TMS 2022 151st Annual Meeting and Exhibition Supplemental Proceedings

PB - Springer International Publishing

CY - Switzerland AG

T2 - TMS 2022 Annual Meeting & Exhibition

Y2 - 27 February 2022 through 3 March 2022

ER -

Moroz M, Tesfaye F, Demchenko P, Prokhorenko M, Pereviznyk O, Rudyk B et al. Phase Equilibria in the Ag–Ge–Bi–Te System and Thermodynamic Properties of the nGeTe×mBi2Te3 (n, m = 1-4) Layered Compounds. In TMS 2022 151st Annual Meeting and Exhibition Supplemental Proceedings. 1 ed. Vol. 1. Switzerland AG: Springer International Publishing. 2022. p. 60-73. (Minerals, Metals and Materials Series). doi: 10.1007/978-3-030-92381-5_7

Phase Equilibria in the Ag–Ge–Bi–Te System and Thermodynamic Properties of the nGeTe×mBi2Te3 (n, m = 1-4) Layered Compounds

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