DOI: https://doi.org/10.32515/2664-262X.2023.8(39).1.10-19
The Structure of Groups of Atoms of the As-S System Vapor for the Creation of Promising Materials for the Automotive Industry
About the Authors
Ludmyla Tarandushka, Professor, Doctor in Technics (Doctor of Technic Sciences), Cherkasy State Technological University, Cherkasy, Ukraine, e-mail: tarandushkal@ukr.net, ORCID ID: 0000-0002-1410-9088
Viktor Kovtunenko, Associate Professor, PhD in Physical & Mathematicals (Candidate of Physical & Mathematical Sciences), Cherkasy State Technological University, Cherkasy, Ukraine, e-mail: kovtvics@ukr.net
Abstract
Quantum mechanical simulation methods was found two kinds of different isomorphic forms of two- and three-atom clusters of As-S system vapor phase materials: chain and triangular. Nature of their structure was analyzed within the first two coordination spheres as central atoms for sulfur and arsenic. It is shown the possibility of realization in small clusters of a broader spectrum of different short-range order atomic configurations, compared with the condensed phase materials As-S. The calculated length of the different chemical bonds, their energy and bond angles for the clusters are in good agreement with the experimental data. The results of the research can be useful for improving the process of manufacturing fuel for cars.
With the help of mathematical modeling, the values of the spatial structure were specified and the energy states of the formation of various phases of di- and triatomic formations of the pair of As-S compound materials were calculated.
Such states can be differentiated into two structures: row-like and triangular-like. Analysis of the close-order structure of similar formations indicates the probability of formation of different structures of the 1st and 2nd coordination spheres: ten types of close proximity of central sulfur atoms, fourteen types of close proximity of central arsenic atoms, and nine types of configuration of the location of other particles.
The 1st coordination sphere of groups is formed by covalent chemical compounds of all kinds of relations from one-dimensional to three-dimensional with lengths correlating with experimental ones. In base-like compounds, the angles between sulfur chains are 120 or 160 degrees, in arsenic chains - within 90-110 degrees. All bond angles of three-dimensional bonds are close to 60 degrees.
In small associations of this system, a more diverse set of atomic configurations is formed in the boundaries of the close neighborhood, in contrast to the condensed formations of the studied compound. At the same time, calculated compounds of small groups, energy states of differentiated chemical compounds correlate with experiment.
Keywords
small groups, short-range order, chalcogenides, first-principle methods, energy of chemical bonds, lengths of atomic chains, interchain angles
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References
1. Dalekorei, A.V., Demesh, Sh.Sh., Kovtunenko, V.S. & Meshko, R.O. (2012). Mas-spectry parovyh potokiv pry vyparovuvanni materialiv systemy As–S ta yih rol' u formuvanni amorphnyh plivok [As-S vapor mass spectra and their role in formation of amorphous films] . Naukovyi visnyk Uzhhorods'koho universytetu (Ser. Fizyka) Scientific Bulletin of Uzhhorod University (Physics Series), No. 31: 79 [in Ukrainian].
2. Dalekorey, A.V., Ivanytsky, V.P., Kovtunenko, V.S. & Meshko, R.O. (2016). The formation energies of the clusters of As-S materials vapor phase . JOURNAL OF OPTOELECTRONICS AND ADVANCED MATERIALS, 18, No. 3-4. P. 301-309 [in Hungary].
3. Ivanytskyi, V.P. (2008). Mekhanizmy formuvannia stokhastychno neodnoridnoi struktury amorfnykh khal'kohenidiv [Mechanisms of stochastically heterogeneous structure formation of amorphous chalcogenides]. Extended abstract of Doctor’s thesis . Kharkiv [in Ukrain].
4. Popescu, A.A., Dolhyer, V.T., Vataman, I.I., Buzdugan, A.I., & Yndrychan, K.M. (1997). Molekuljarnij phazovij analiz tonkich plenok amorphnich AsxS100-x: Stekloobraznije poluprovodniki dlja optoelektroniki . Ed. House "Shtynytsa", Chisinau. P. 98-107 [in Moldova].
5. White K., Kumar B., Rai Amarendra K. (1988). Effect of deposition rate on structure and properties of As2S3 films, Thin Solid Films, 161, P.139 [in English].
6. Ralf Steudel D. (1975). Properties of Sulfur-Sulfur Bonds . Angewandte Chemie International Edition. 14, No. 10, P. 655 [in Germany].
7. Kovtunenko, V.S. (2016). Struktura dvo- ta tryatomovykh klasteriv parovoyi fazy materialiv systemy As–S [The structure of diatomic and triatomic clusters of the vapor phase of the materials of the system As–S] . Nanosystemy, nanomaterialy, nanotechnologiji: zb. nauk. pr. – Nanosystems, nanomaterials, nanotechnologies: coll. of science works, Vol. 14, № 2. P. 221-234 [in Ukrainian].
8. Zakharov, V.P. & Gerasimenko, V.S. (1976). Structurnije osobennosti poluprovodnikov v amorphnom sostojanii [Structural features of semiconductors in the amorphous state]. Akademiya nauk Ukrayinsʹkoyi RSR, Instytut problem materialoznavstva. Kiyv, Naukova Dumka [in Ukrainian].
9. Chern, G.C., Zauks, J. & McGhie, A.R. (1983). Spin-coated amorphous chalcogenide films: thermal properties. J. Applied Physics. Vol. 54. №8, P. 4596-4601 [in English].
10. Martin, T.P. (1983). Arsenic sulfide clusters. Solid state communications. Vol.47, № 2. P.111-114 [in Belgium].
11. Popescu, A. (2002). Structure modelling of chalcogenide vitreous films by computational chemistry program. Moldavian J. of physical sciences. №2. P. 130-138 [in Moldova].
Citations
- Мас-спектри парових потоків при випаровуванні матеріалів системи As–S та їх роль у формуванні аморфних плівок / А.В. Далекорей, Ш.Ш. Демеш, В.С. Ковтуненко, Р.О. Мешко. Науковий вісник Ужгородського університету (Сер. Фізика). 2012. No. 31: 79.
- The formation energies of the clusters of As-S materials vapor phase / A.V. Dalekorey, V.P. Ivanytsky, V.S. Kovtunenko, R.O. Meshko. JOURNAL OF OPTOELECTRONICS AND ADVANCED MATERIALS, 18, No. 3-4: p. 301-309 (2016).
- Іваницький В.П. Механізми формування стохастично неоднорідної структури аморфних халькогенідів: автореф. дис. на здобуття наук. ступеня доктора фіз.-мат. наук: Харків, 2008. 34 с.
- Молекулярний паровий аналіз тонких аморних плівок AsxS100-x: склоподібні напівпровідники для оптоелектроніки / A.A. Попеску та ін. Ed. House "Shtynytsa", Chisinau, 1997. P. 98-107.
- White K., Kumar B., Rai Amarendra K. Effect of deposition rate on structure and properties of As2S3 films, Thin Solid Films. 1988. 161. P. 139.
- D. Ralf Steudel. Properties of Sulfur-Sulfur Bonds . Angewandte Chemie International Edition. 1975. 14. No. 10. P. 655 [in Germany].
- Ковтуненко В.С. Структура дво- та триатомових кластерів парової фази матеріaлів системи As–S . Наносистеми, наноматеріали, нанотехнології: зб. наук. пр. 2016. Т. 14, № 2. С. 221-234.
- Захаров В.П., Герасименко В.С. Структурні особливості напівпровідників в аморфному стані : монографія. Академія наук Української РСР; Інститут проблем матеріалознавства. Київ: Наукова думка, 1976. 280 с.
- Chern G.C., Zauks J., McGhie A.R. Spin-coated amorphous chalcogenide films: thermal properties. J. Applied Physics. 1983. Vol.54. №8. P.4596-4601.
- Martin T.P. Arsenic sulfide clusters. Solid state communications. 1983. Vol.47, №2. P.111-114.
- Popescu A. Structure modelling of chalcogenide vitreous films by computational chemistry program. Moldavian Journal of the Physical Sciences. 2002. № 2. P. 130-138.
Copyright (c) 2023 Ludmyla Tarandushka, Viktor Kovtunenko
The Structure of Groups of Atoms of the As-S System Vapor for the Creation of Promising Materials for the Automotive Industry
About the Authors
Ludmyla Tarandushka, Professor, Doctor in Technics (Doctor of Technic Sciences), Cherkasy State Technological University, Cherkasy, Ukraine, e-mail: tarandushkal@ukr.net, ORCID ID: 0000-0002-1410-9088
Viktor Kovtunenko, Associate Professor, PhD in Physical & Mathematicals (Candidate of Physical & Mathematical Sciences), Cherkasy State Technological University, Cherkasy, Ukraine, e-mail: kovtvics@ukr.net
Abstract
Keywords
Full Text:
PDFReferences
1. Dalekorei, A.V., Demesh, Sh.Sh., Kovtunenko, V.S. & Meshko, R.O. (2012). Mas-spectry parovyh potokiv pry vyparovuvanni materialiv systemy As–S ta yih rol' u formuvanni amorphnyh plivok [As-S vapor mass spectra and their role in formation of amorphous films] . Naukovyi visnyk Uzhhorods'koho universytetu (Ser. Fizyka) Scientific Bulletin of Uzhhorod University (Physics Series), No. 31: 79 [in Ukrainian].
2. Dalekorey, A.V., Ivanytsky, V.P., Kovtunenko, V.S. & Meshko, R.O. (2016). The formation energies of the clusters of As-S materials vapor phase . JOURNAL OF OPTOELECTRONICS AND ADVANCED MATERIALS, 18, No. 3-4. P. 301-309 [in Hungary].
3. Ivanytskyi, V.P. (2008). Mekhanizmy formuvannia stokhastychno neodnoridnoi struktury amorfnykh khal'kohenidiv [Mechanisms of stochastically heterogeneous structure formation of amorphous chalcogenides]. Extended abstract of Doctor’s thesis . Kharkiv [in Ukrain].
4. Popescu, A.A., Dolhyer, V.T., Vataman, I.I., Buzdugan, A.I., & Yndrychan, K.M. (1997). Molekuljarnij phazovij analiz tonkich plenok amorphnich AsxS100-x: Stekloobraznije poluprovodniki dlja optoelektroniki . Ed. House "Shtynytsa", Chisinau. P. 98-107 [in Moldova].
5. White K., Kumar B., Rai Amarendra K. (1988). Effect of deposition rate on structure and properties of As2S3 films, Thin Solid Films, 161, P.139 [in English].
6. Ralf Steudel D. (1975). Properties of Sulfur-Sulfur Bonds . Angewandte Chemie International Edition. 14, No. 10, P. 655 [in Germany].
7. Kovtunenko, V.S. (2016). Struktura dvo- ta tryatomovykh klasteriv parovoyi fazy materialiv systemy As–S [The structure of diatomic and triatomic clusters of the vapor phase of the materials of the system As–S] . Nanosystemy, nanomaterialy, nanotechnologiji: zb. nauk. pr. – Nanosystems, nanomaterials, nanotechnologies: coll. of science works, Vol. 14, № 2. P. 221-234 [in Ukrainian].
8. Zakharov, V.P. & Gerasimenko, V.S. (1976). Structurnije osobennosti poluprovodnikov v amorphnom sostojanii [Structural features of semiconductors in the amorphous state]. Akademiya nauk Ukrayinsʹkoyi RSR, Instytut problem materialoznavstva. Kiyv, Naukova Dumka [in Ukrainian].
9. Chern, G.C., Zauks, J. & McGhie, A.R. (1983). Spin-coated amorphous chalcogenide films: thermal properties. J. Applied Physics. Vol. 54. №8, P. 4596-4601 [in English].
10. Martin, T.P. (1983). Arsenic sulfide clusters. Solid state communications. Vol.47, № 2. P.111-114 [in Belgium].
11. Popescu, A. (2002). Structure modelling of chalcogenide vitreous films by computational chemistry program. Moldavian J. of physical sciences. №2. P. 130-138 [in Moldova].
Citations
- Мас-спектри парових потоків при випаровуванні матеріалів системи As–S та їх роль у формуванні аморфних плівок / А.В. Далекорей, Ш.Ш. Демеш, В.С. Ковтуненко, Р.О. Мешко. Науковий вісник Ужгородського університету (Сер. Фізика). 2012. No. 31: 79.
- The formation energies of the clusters of As-S materials vapor phase / A.V. Dalekorey, V.P. Ivanytsky, V.S. Kovtunenko, R.O. Meshko. JOURNAL OF OPTOELECTRONICS AND ADVANCED MATERIALS, 18, No. 3-4: p. 301-309 (2016).
- Іваницький В.П. Механізми формування стохастично неоднорідної структури аморфних халькогенідів: автореф. дис. на здобуття наук. ступеня доктора фіз.-мат. наук: Харків, 2008. 34 с.
- Молекулярний паровий аналіз тонких аморних плівок AsxS100-x: склоподібні напівпровідники для оптоелектроніки / A.A. Попеску та ін. Ed. House "Shtynytsa", Chisinau, 1997. P. 98-107.
- White K., Kumar B., Rai Amarendra K. Effect of deposition rate on structure and properties of As2S3 films, Thin Solid Films. 1988. 161. P. 139.
- D. Ralf Steudel. Properties of Sulfur-Sulfur Bonds . Angewandte Chemie International Edition. 1975. 14. No. 10. P. 655 [in Germany].
- Ковтуненко В.С. Структура дво- та триатомових кластерів парової фази матеріaлів системи As–S . Наносистеми, наноматеріали, нанотехнології: зб. наук. пр. 2016. Т. 14, № 2. С. 221-234.
- Захаров В.П., Герасименко В.С. Структурні особливості напівпровідників в аморфному стані : монографія. Академія наук Української РСР; Інститут проблем матеріалознавства. Київ: Наукова думка, 1976. 280 с.
- Chern G.C., Zauks J., McGhie A.R. Spin-coated amorphous chalcogenide films: thermal properties. J. Applied Physics. 1983. Vol.54. №8. P.4596-4601.
- Martin T.P. Arsenic sulfide clusters. Solid state communications. 1983. Vol.47, №2. P.111-114.
- Popescu A. Structure modelling of chalcogenide vitreous films by computational chemistry program. Moldavian Journal of the Physical Sciences. 2002. № 2. P. 130-138.