Radio frequency magnetron sputtering of Sr- and Mg-substituted β-tricalcium phosphate: Analysis of the physicochemical properties and deposition rate of coatings

A. I. Kozelskaya, S. E. Kulkova, A. Y. Fedotkin, E. N. Bolbasov, Y. M. Zhukov, L. Stipniece, A. V. Bakulin, A. S. Useinov, E. V. Shesterikov, J. Locs, S. I. Tverdokhlebov

Научно-образовательный центр Б.П. Вейнберга

Результат исследований: Материалы для журнала › Статья

1 Цитирования (Scopus)

Аннотация

The effect of the sputtered target composition on the deposition rate of coatings formed by radio frequency magnetron sputtering (RFMS) is investigated. Strontium substitution in the sputtered β-tricalcium phosphate (β-TCP) target composition increases the coating deposition rate, whereas magnesium substitution decreases the coating deposition rate. Computer modelling shows that both the unit cell volume and bond lengths increase when strontium is introduced into the crystal lattice, whereas the incorporation of magnesium leads to a decrease in these parameters. A correlation between the change in unit cell volume due to magnesium and strontium substitutions, and the coating deposition rate is also determined.

Язык оригинала	Английский
Номер статьи	144763
Журнал	Applied Surface Science
Том	509
DOI	https://doi.org/10.1016/j.apsusc.2019.144763
Состояние	Опубликовано - 15 апр 2020

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ASJC Scopus subject areas

Chemistry(all)
Condensed Matter Physics
Physics and Astronomy(all)
Surfaces and Interfaces
Surfaces, Coatings and Films

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Kozelskaya, A. I., Kulkova, S. E., Fedotkin, A. Y., Bolbasov, E. N., Zhukov, Y. M., Stipniece, L., Bakulin, A. V., Useinov, A. S., Shesterikov, E. V., Locs, J., & Tverdokhlebov, S. I. (2020). Radio frequency magnetron sputtering of Sr- and Mg-substituted β-tricalcium phosphate: Analysis of the physicochemical properties and deposition rate of coatings. Applied Surface Science, 509, [144763]. https://doi.org/10.1016/j.apsusc.2019.144763

Radio frequency magnetron sputtering of Sr- and Mg-substituted β-tricalcium phosphate : Analysis of the physicochemical properties and deposition rate of coatings. / Kozelskaya, A. I.; Kulkova, S. E.; Fedotkin, A. Y.; Bolbasov, E. N.; Zhukov, Y. M.; Stipniece, L.; Bakulin, A. V.; Useinov, A. S.; Shesterikov, E. V.; Locs, J.; Tverdokhlebov, S. I.

В: Applied Surface Science, Том 509, 144763, 15.04.2020.

Результат исследований: Материалы для журнала › Статья

Kozelskaya, AI, Kulkova, SE, Fedotkin, AY, Bolbasov, EN, Zhukov, YM, Stipniece, L, Bakulin, AV, Useinov, AS, Shesterikov, EV, Locs, J & Tverdokhlebov, SI 2020, 'Radio frequency magnetron sputtering of Sr- and Mg-substituted β-tricalcium phosphate: Analysis of the physicochemical properties and deposition rate of coatings', Applied Surface Science, том. 509, 144763. https://doi.org/10.1016/j.apsusc.2019.144763

Kozelskaya, A. I. ; Kulkova, S. E. ; Fedotkin, A. Y. ; Bolbasov, E. N. ; Zhukov, Y. M. ; Stipniece, L. ; Bakulin, A. V. ; Useinov, A. S. ; Shesterikov, E. V. ; Locs, J. ; Tverdokhlebov, S. I. / Radio frequency magnetron sputtering of Sr- and Mg-substituted β-tricalcium phosphate : Analysis of the physicochemical properties and deposition rate of coatings. В: Applied Surface Science. 2020 ; Том 509.

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abstract = "The effect of the sputtered target composition on the deposition rate of coatings formed by radio frequency magnetron sputtering (RFMS) is investigated. Strontium substitution in the sputtered β-tricalcium phosphate (β-TCP) target composition increases the coating deposition rate, whereas magnesium substitution decreases the coating deposition rate. Computer modelling shows that both the unit cell volume and bond lengths increase when strontium is introduced into the crystal lattice, whereas the incorporation of magnesium leads to a decrease in these parameters. A correlation between the change in unit cell volume due to magnesium and strontium substitutions, and the coating deposition rate is also determined.",

keywords = "Computer simulation, Magnesium substitutions, Radio frequency magnetron sputtering, Strontium substitutions, β-tricalcium phosphate",

author = "Kozelskaya, {A. I.} and Kulkova, {S. E.} and Fedotkin, {A. Y.} and Bolbasov, {E. N.} and Zhukov, {Y. M.} and L. Stipniece and Bakulin, {A. V.} and Useinov, {A. S.} and Shesterikov, {E. V.} and J. Locs and Tverdokhlebov, {S. I.}",

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AU - Kozelskaya, A. I.

AU - Kulkova, S. E.

AU - Fedotkin, A. Y.

AU - Bolbasov, E. N.

AU - Zhukov, Y. M.

AU - Stipniece, L.

AU - Bakulin, A. V.

AU - Useinov, A. S.

AU - Shesterikov, E. V.

AU - Locs, J.

AU - Tverdokhlebov, S. I.

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N2 - The effect of the sputtered target composition on the deposition rate of coatings formed by radio frequency magnetron sputtering (RFMS) is investigated. Strontium substitution in the sputtered β-tricalcium phosphate (β-TCP) target composition increases the coating deposition rate, whereas magnesium substitution decreases the coating deposition rate. Computer modelling shows that both the unit cell volume and bond lengths increase when strontium is introduced into the crystal lattice, whereas the incorporation of magnesium leads to a decrease in these parameters. A correlation between the change in unit cell volume due to magnesium and strontium substitutions, and the coating deposition rate is also determined.

AB - The effect of the sputtered target composition on the deposition rate of coatings formed by radio frequency magnetron sputtering (RFMS) is investigated. Strontium substitution in the sputtered β-tricalcium phosphate (β-TCP) target composition increases the coating deposition rate, whereas magnesium substitution decreases the coating deposition rate. Computer modelling shows that both the unit cell volume and bond lengths increase when strontium is introduced into the crystal lattice, whereas the incorporation of magnesium leads to a decrease in these parameters. A correlation between the change in unit cell volume due to magnesium and strontium substitutions, and the coating deposition rate is also determined.

KW - Computer simulation

KW - Magnesium substitutions

KW - Radio frequency magnetron sputtering

KW - Strontium substitutions

KW - β-tricalcium phosphate

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Доступ к документу

10.1016/j.apsusc.2019.144763