HIGH-TEMPERATURE ANNEALING OF SILICON SUBOXIDE THIN FILMS OBTAINED BY GAS-JET ELECTRON BEAM PLASMA CHEMICAL VAPOR DEPOSITION

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HIGH-TEMPERATURE ANNEALING OF SILICON SUBOXIDE THIN FILMS OBTAINED BY GAS-JET ELECTRON BEAM PLASMA CHEMICAL VAPOR DEPOSITION. / Baranov, E. A.; Zamchiy, A. O.; Lunev, N. A. et al.

In: Journal of Applied Mechanics and Technical Physics, Vol. 63, No. 5, 06.02.2023, p. 757-764.

Research output: Contribution to journal › Article › peer-review

Harvard

Baranov, EA, Zamchiy, AO, Lunev, NA, Merkulova, IE, Volodin, VA, Sharafutdinov, MR & Shapovalova, AA 2023, 'HIGH-TEMPERATURE ANNEALING OF SILICON SUBOXIDE THIN FILMS OBTAINED BY GAS-JET ELECTRON BEAM PLASMA CHEMICAL VAPOR DEPOSITION', Journal of Applied Mechanics and Technical Physics, vol. 63, no. 5, pp. 757-764. https://doi.org/10.1134/S0021894422050030

APA

Baranov, E. A., Zamchiy, A. O., Lunev, N. A., Merkulova, I. E., Volodin, V. A., Sharafutdinov, M. R., & Shapovalova, A. A. (2023). HIGH-TEMPERATURE ANNEALING OF SILICON SUBOXIDE THIN FILMS OBTAINED BY GAS-JET ELECTRON BEAM PLASMA CHEMICAL VAPOR DEPOSITION. Journal of Applied Mechanics and Technical Physics, 63(5), 757-764. https://doi.org/10.1134/S0021894422050030

Vancouver

Baranov EA, Zamchiy AO, Lunev NA, Merkulova IE, Volodin VA, Sharafutdinov MR et al. HIGH-TEMPERATURE ANNEALING OF SILICON SUBOXIDE THIN FILMS OBTAINED BY GAS-JET ELECTRON BEAM PLASMA CHEMICAL VAPOR DEPOSITION. Journal of Applied Mechanics and Technical Physics. 2023 Feb 6;63(5):757-764. doi: 10.1134/S0021894422050030

Author

Baranov, E. A. ; Zamchiy, A. O. ; Lunev, N. A. et al. / HIGH-TEMPERATURE ANNEALING OF SILICON SUBOXIDE THIN FILMS OBTAINED BY GAS-JET ELECTRON BEAM PLASMA CHEMICAL VAPOR DEPOSITION. In: Journal of Applied Mechanics and Technical Physics. 2023 ; Vol. 63, No. 5. pp. 757-764.

BibTeX

@article{15768b3170814c68b8d9e1ae5596f4c1,

title = "HIGH-TEMPERATURE ANNEALING OF SILICON SUBOXIDE THIN FILMS OBTAINED BY GAS-JET ELECTRON BEAM PLASMA CHEMICAL VAPOR DEPOSITION",

abstract = "Abstract: Thin films of amorphous nonstoichiometric silicon oxide ( a-SiO:H, where ) are synthesized via gas-jet electron beam plasma chemical vapor deposition. The stoichiometric coefficient of the a-SiO:H films is varied within a range of 0.47–1.63 as a function of, determined by the flow rate of the Ar–SiH4 mixture. High-temperature annealing (at 950°C for 2 h) of a-SiO:H thin films causes the formation of crystalline silicon nanoparticles with a size of 8.3–12.3 nm. It is shown that, with an increase in, the degree of crystallinity of annealed films becomes higher by up to 66%. It is assumed that the position of a nanocrystalline silicon peak in the Raman spectra is affected by mechanical stresses. The quantitative estimation of such a stress yields 1.0–1.7 GPa.",

keywords = "nanocrystalline silicon, nonstoichiometric silicon oxide, thin film synthesis",

author = "Baranov, {E. A.} and Zamchiy, {A. O.} and Lunev, {N. A.} and Merkulova, {I. E.} and Volodin, {V. A.} and Sharafutdinov, {M. R.} and Shapovalova, {A. A.}",

note = "This work was financially supported by the Russian Science Foundation (Grant No. 19-79-10143) (annealing and diagnostics of thin films) and within the framework of the State Task No. AAAA-A19-119061490008-3 (synthesis of thin films) at the Kutateladze Institute of Thermal Physics, Siberian Branch, Russian Academy of Sciences (KITP SB RAS). High-TEMPERATURE ANNEALING OF SILICON SUBOXIDE THIN FILMS OBTAINED BY GAS-JET ELECTRON BEAM PLASMA CHEMICAL VAPOR DEPOSITION / E. A. Baranov, A. O. Zamchiy, N. A. Lunev [et al.] // Journal of Applied Mechanics and Technical Physics. – 2022. – Vol. 63, No. 5. – P. 757-764. – DOI 10.1134/S0021894422050030. ",

year = "2023",

month = feb,

day = "6",

doi = "10.1134/S0021894422050030",

language = "English",

volume = "63",

pages = "757--764",

journal = "Journal of Applied Mechanics and Technical Physics",

issn = "0021-8944",

publisher = "Maik Nauka-Interperiodica Publishing",

number = "5",

}

RIS

TY - JOUR

T1 - HIGH-TEMPERATURE ANNEALING OF SILICON SUBOXIDE THIN FILMS OBTAINED BY GAS-JET ELECTRON BEAM PLASMA CHEMICAL VAPOR DEPOSITION

AU - Baranov, E. A.

AU - Zamchiy, A. O.

AU - Lunev, N. A.

AU - Merkulova, I. E.

AU - Volodin, V. A.

AU - Sharafutdinov, M. R.

AU - Shapovalova, A. A.

N1 - This work was financially supported by the Russian Science Foundation (Grant No. 19-79-10143) (annealing and diagnostics of thin films) and within the framework of the State Task No. AAAA-A19-119061490008-3 (synthesis of thin films) at the Kutateladze Institute of Thermal Physics, Siberian Branch, Russian Academy of Sciences (KITP SB RAS). High-TEMPERATURE ANNEALING OF SILICON SUBOXIDE THIN FILMS OBTAINED BY GAS-JET ELECTRON BEAM PLASMA CHEMICAL VAPOR DEPOSITION / E. A. Baranov, A. O. Zamchiy, N. A. Lunev [et al.] // Journal of Applied Mechanics and Technical Physics. – 2022. – Vol. 63, No. 5. – P. 757-764. – DOI 10.1134/S0021894422050030.

PY - 2023/2/6

Y1 - 2023/2/6

N2 - Abstract: Thin films of amorphous nonstoichiometric silicon oxide ( a-SiO:H, where ) are synthesized via gas-jet electron beam plasma chemical vapor deposition. The stoichiometric coefficient of the a-SiO:H films is varied within a range of 0.47–1.63 as a function of, determined by the flow rate of the Ar–SiH4 mixture. High-temperature annealing (at 950°C for 2 h) of a-SiO:H thin films causes the formation of crystalline silicon nanoparticles with a size of 8.3–12.3 nm. It is shown that, with an increase in, the degree of crystallinity of annealed films becomes higher by up to 66%. It is assumed that the position of a nanocrystalline silicon peak in the Raman spectra is affected by mechanical stresses. The quantitative estimation of such a stress yields 1.0–1.7 GPa.

AB - Abstract: Thin films of amorphous nonstoichiometric silicon oxide ( a-SiO:H, where ) are synthesized via gas-jet electron beam plasma chemical vapor deposition. The stoichiometric coefficient of the a-SiO:H films is varied within a range of 0.47–1.63 as a function of, determined by the flow rate of the Ar–SiH4 mixture. High-temperature annealing (at 950°C for 2 h) of a-SiO:H thin films causes the formation of crystalline silicon nanoparticles with a size of 8.3–12.3 nm. It is shown that, with an increase in, the degree of crystallinity of annealed films becomes higher by up to 66%. It is assumed that the position of a nanocrystalline silicon peak in the Raman spectra is affected by mechanical stresses. The quantitative estimation of such a stress yields 1.0–1.7 GPa.

KW - nanocrystalline silicon

KW - nonstoichiometric silicon oxide

KW - thin film synthesis

UR - https://www.mendeley.com/catalogue/f4cfc3d1-49f1-33dd-a8d0-751da1584192/

UR - https://www.elibrary.ru/item.asp?id=54661125

U2 - 10.1134/S0021894422050030

DO - 10.1134/S0021894422050030

M3 - Article

VL - 63

SP - 757

EP - 764

JO - Journal of Applied Mechanics and Technical Physics

JF - Journal of Applied Mechanics and Technical Physics

SN - 0021-8944

IS - 5

ER -

ID: 68321825