Synthesis, Thermodynamic Properties, and Structural Characteristics of Multicomponent Compounds in the Ag–Ni–Sn–S System

Mykola Moroz; Fiseha Tesfaye; Pavlo Demchenko; Vasyl  Kordan; Myroslava Prokhorenko; Oksana  Mysina; Oleksandr Reshetnyak; Roman  Gladyshevskii

doi:10.1007/s11837-023-05784-9

Synthesis, Thermodynamic Properties, and Structural Characteristics of Multicomponent Compounds in the Ag–Ni–Sn–S System

Mykola Moroz^*
, Fiseha Tesfaye
, Pavlo Demchenko
, Vasyl Kordan
, Myroslava Prokhorenko
, Oksana Mysina
, Oleksandr Reshetnyak
, Roman Gladyshevskii

^*Korresponderande författare för detta arbete

Forskningsoutput: Tidskriftsbidrag › Artikel › Vetenskaplig › Peer review

5 Citeringar (Scopus)

Sammanfattning

To establish an accurate thermodynamic database of the Ag–Ni–Sn–S system, only a few experimental studies have been published. There is no published work with thermodynamic values of the quaternary compounds of the Ag–Ni–Sn–S system. Therefore, the main objective of this work was to determine the thermodynamic properties of multicomponent phases in the Ag–Ni–Sn–S system and to contribute new experimental thermodynamic data for the relatively better known phases in the temperature and compositional ranges that have not been studied experimentally before. To achieve these objectives, the T–x space of the Ag–Ni–Sn–S system in the region SnS–SnS ₂–NiS ₂–NiS–Ag ₂S–SnS was studied by the x-ray phase diffraction and modified electromotive force (EMF) methods. The existence of the multicomponent compounds AgNiS ₂, Ag ₂NiS ₂, Ag ₂NiSnS ₄, and Ag ₂NiSn ₃S ₈ below 600 K was established. The synthesis was carried out in the positive electrodes of the electrochemical cells (ECCs). The values of standard thermodynamic functions of the compounds were determined from the temperature dependencies of the EMF of the ECCs. The crystal structure of the new modification of Ag ₂NiSn ₃S ₈ compound was studied by x-ray diffraction analysis.

Originalspråk	Engelska
Sidor (från-till)	1-18
Antal sidor	18
Tidskrift	JOM Journal of the Minerals, Metals and Materials Society
Volym	75
Nummer	5
DOI	https://doi.org/10.1007/s11837-023-05784-9
Status	Publicerad - juni 2023
MoE-publikationstyp	A1 Tidskriftsartikel-refererad

Finansiering

This research was supported by the national project of the Ministry of Education and Science of Ukraine “Physico-chemistry of functional nanomaterials for electrochemical systems” and project # HX-010123 from “Materials Phases Data System, Viznau, Switzerland”. This work was partly funded by the Simons Foundation (Award Number: 1037973), Svenska kulturfonden (Swedish Cultural Foundation in Finland), and K.H. Renlund Foundation under the project “Innovative e-waste recycling processes for greener and more efficient recoveries of critical metals and energy” at Åbo Akademi University.

FN:s SDG:er

Detta resultat bidrar till följande hållbara utvecklingsmål:

SDG 11 – Hållbara städer och samhällen

Åtkomst av dokument

10.1007/s11837-023-05784-9Licens: All rights reserved

Innovative e-waste recycling processes for greener and more efficient recoveries of critical metals and energy
Tesfaye, F. (Ansvarig forskare), Vainio, E. (CoPI), Hupa, L. (CoI) & Jylhävuori, N. (CoI)
01/01/22 → 31/12/23
Projekt: Stiftelser och fonder

Citera det här

@article{da9dbe62950848979aa1a0f1fb59f040,

title = "Synthesis, Thermodynamic Properties, and Structural Characteristics of Multicomponent Compounds in the Ag–Ni–Sn–S System",

abstract = "To establish an accurate thermodynamic database of the Ag–Ni–Sn–S system, only a few experimental studies have been published. There is no published work with thermodynamic values of the quaternary compounds of the Ag–Ni–Sn–S system. Therefore, the main objective of this work was to determine the thermodynamic properties of multicomponent phases in the Ag–Ni–Sn–S system and to contribute new experimental thermodynamic data for the relatively better known phases in the temperature and compositional ranges that have not been studied experimentally before. To achieve these objectives, the T–x space of the Ag–Ni–Sn–S system in the region SnS–SnS 2–NiS 2–NiS–Ag 2S–SnS was studied by the x-ray phase diffraction and modified electromotive force (EMF) methods. The existence of the multicomponent compounds AgNiS 2, Ag 2NiS 2, Ag 2NiSnS 4, and Ag 2NiSn 3S 8 below 600 K was established. The synthesis was carried out in the positive electrodes of the electrochemical cells (ECCs). The values of standard thermodynamic functions of the compounds were determined from the temperature dependencies of the EMF of the ECCs. The crystal structure of the new modification of Ag 2NiSn 3S 8 compound was studied by x-ray diffraction analysis.",

keywords = "Gibbs energy, EMF technique, Renewable energy",

author = "Mykola Moroz and Fiseha Tesfaye and Pavlo Demchenko and Vasyl Kordan and Myroslava Prokhorenko and Oksana Mysina and Oleksandr Reshetnyak and Roman Gladyshevskii",

year = "2023",

month = jun,

doi = "10.1007/s11837-023-05784-9",

language = "English",

volume = "75",

pages = "1--18",

journal = "JOM Journal of the Minerals, Metals and Materials Society",

issn = "1047-4838",

publisher = "Springer",

number = "5",

}

Moroz, M, Tesfaye, F, Demchenko, P, Kordan, V, Prokhorenko, M, Mysina, O, Reshetnyak, O & Gladyshevskii, R 2023, 'Synthesis, Thermodynamic Properties, and Structural Characteristics of Multicomponent Compounds in the Ag–Ni–Sn–S System', JOM Journal of the Minerals, Metals and Materials Society, vol. 75, nr. 5, s. 1-18. https://doi.org/10.1007/s11837-023-05784-9

TY - JOUR

T1 - Synthesis, Thermodynamic Properties, and Structural Characteristics of Multicomponent Compounds in the Ag–Ni–Sn–S System

AU - Moroz, Mykola

AU - Tesfaye, Fiseha

AU - Demchenko, Pavlo

AU - Kordan, Vasyl

AU - Prokhorenko, Myroslava

AU - Mysina, Oksana

AU - Reshetnyak, Oleksandr

AU - Gladyshevskii, Roman

PY - 2023/6

Y1 - 2023/6

N2 - To establish an accurate thermodynamic database of the Ag–Ni–Sn–S system, only a few experimental studies have been published. There is no published work with thermodynamic values of the quaternary compounds of the Ag–Ni–Sn–S system. Therefore, the main objective of this work was to determine the thermodynamic properties of multicomponent phases in the Ag–Ni–Sn–S system and to contribute new experimental thermodynamic data for the relatively better known phases in the temperature and compositional ranges that have not been studied experimentally before. To achieve these objectives, the T–x space of the Ag–Ni–Sn–S system in the region SnS–SnS 2–NiS 2–NiS–Ag 2S–SnS was studied by the x-ray phase diffraction and modified electromotive force (EMF) methods. The existence of the multicomponent compounds AgNiS 2, Ag 2NiS 2, Ag 2NiSnS 4, and Ag 2NiSn 3S 8 below 600 K was established. The synthesis was carried out in the positive electrodes of the electrochemical cells (ECCs). The values of standard thermodynamic functions of the compounds were determined from the temperature dependencies of the EMF of the ECCs. The crystal structure of the new modification of Ag 2NiSn 3S 8 compound was studied by x-ray diffraction analysis.

AB - To establish an accurate thermodynamic database of the Ag–Ni–Sn–S system, only a few experimental studies have been published. There is no published work with thermodynamic values of the quaternary compounds of the Ag–Ni–Sn–S system. Therefore, the main objective of this work was to determine the thermodynamic properties of multicomponent phases in the Ag–Ni–Sn–S system and to contribute new experimental thermodynamic data for the relatively better known phases in the temperature and compositional ranges that have not been studied experimentally before. To achieve these objectives, the T–x space of the Ag–Ni–Sn–S system in the region SnS–SnS 2–NiS 2–NiS–Ag 2S–SnS was studied by the x-ray phase diffraction and modified electromotive force (EMF) methods. The existence of the multicomponent compounds AgNiS 2, Ag 2NiS 2, Ag 2NiSnS 4, and Ag 2NiSn 3S 8 below 600 K was established. The synthesis was carried out in the positive electrodes of the electrochemical cells (ECCs). The values of standard thermodynamic functions of the compounds were determined from the temperature dependencies of the EMF of the ECCs. The crystal structure of the new modification of Ag 2NiSn 3S 8 compound was studied by x-ray diffraction analysis.

KW - Gibbs energy

KW - EMF technique

KW - Renewable energy

U2 - 10.1007/s11837-023-05784-9

DO - 10.1007/s11837-023-05784-9

M3 - Article

SN - 1047-4838

VL - 75

SP - 1

EP - 18

JO - JOM Journal of the Minerals, Metals and Materials Society

JF - JOM Journal of the Minerals, Metals and Materials Society

IS - 5

ER -

Synthesis, Thermodynamic Properties, and Structural Characteristics of Multicomponent Compounds in the Ag–Ni–Sn–S System

Sammanfattning

Finansiering

FN:s SDG:er

Åtkomst av dokument

Fingeravtryck

Projekt

Innovative e-waste recycling processes for greener and more efficient recoveries of critical metals and energy

Citera det här