Research output: Contribution to journal › Article › peer-review
Effect of annealing temperature on the morphology, structure, and optical properties of nanostructured SnO(x) films. / Timofeev, Vyacheslav A.; Mashanov, Vladimir I.; Nikiforov, Alexandr I. et al.
In: Materials Research Express, Vol. 7, No. 1, 015027, 06.01.2020.Research output: Contribution to journal › Article › peer-review
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TY - JOUR
T1 - Effect of annealing temperature on the morphology, structure, and optical properties of nanostructured SnO(x) films
AU - Timofeev, Vyacheslav A.
AU - Mashanov, Vladimir I.
AU - Nikiforov, Alexandr I.
AU - Azarov, Ivan A.
AU - Loshkarev, Ivan D.
AU - Korolkov, Ilya V.
AU - Gavrilova, Tatyana A.
AU - Yesin, M. Yu
AU - Chetyrin, Igor A.
PY - 2020/1/6
Y1 - 2020/1/6
N2 - Nanostructured SnO(x) films were obtained by molecular beam epitaxy (MBE). The morphology, structure, and optical properties of obtained films annealed in the temperature range of 200 °C-1000 °C were studied. The reflection high-energy electron diffraction during the film deposition by the MBE method and the x-ray phase analysis showed that the initial films are in the polycrystalline phase. A single orthorhombic SnO2 phase was obtained for the first time after annealing the SnO(x) film in the air at a temperature of about 500 °C. The sharp change in the optical constants near the temperature of 500 °C was established using ellipsometry. The pronounced absorption edge appears in the short-wave region at temperatures above 500 °C and it disappears at lower temperatures. The film thickness changed non-monotonically during the annealing in the air. At first, it grows from 45 nm to 65 nm (active oxidation to 500 °C), and then (above 600 °C) it begins to decrease. The annealing at temperatures of 500 °C-1000 °C leads to the film compaction, since the film thickness decreases to 50 nm, but the refractive index increases by 10%-15%. Optical constants track the progress of film phase and morphological changes.
AB - Nanostructured SnO(x) films were obtained by molecular beam epitaxy (MBE). The morphology, structure, and optical properties of obtained films annealed in the temperature range of 200 °C-1000 °C were studied. The reflection high-energy electron diffraction during the film deposition by the MBE method and the x-ray phase analysis showed that the initial films are in the polycrystalline phase. A single orthorhombic SnO2 phase was obtained for the first time after annealing the SnO(x) film in the air at a temperature of about 500 °C. The sharp change in the optical constants near the temperature of 500 °C was established using ellipsometry. The pronounced absorption edge appears in the short-wave region at temperatures above 500 °C and it disappears at lower temperatures. The film thickness changed non-monotonically during the annealing in the air. At first, it grows from 45 nm to 65 nm (active oxidation to 500 °C), and then (above 600 °C) it begins to decrease. The annealing at temperatures of 500 °C-1000 °C leads to the film compaction, since the film thickness decreases to 50 nm, but the refractive index increases by 10%-15%. Optical constants track the progress of film phase and morphological changes.
KW - absorption coefficient
KW - epitaxy
KW - nanostructured film
KW - tin oxide
KW - x-ray diffraction
KW - THIN-FILMS
KW - PHYSICAL-PROPERTIES
KW - TIN OXIDE-FILMS
KW - GROWTH
KW - ELLIPSOMETRY
KW - QUARTZ
UR - http://www.scopus.com/inward/record.url?scp=85077949816&partnerID=8YFLogxK
U2 - 10.1088/2053-1591/ab6122
DO - 10.1088/2053-1591/ab6122
M3 - Article
AN - SCOPUS:85077949816
VL - 7
JO - Materials Research Express
JF - Materials Research Express
SN - 2053-1591
IS - 1
M1 - 015027
ER -
ID: 23188283