Publikation: Growth and characterization of Sb2(SxSe1-x)3 thin films prepared by chemical-molecular beam deposition for solar cell applications
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2024
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Razykov, Takhir M.
Kuchkarov, Kudrat М.
Ergashev, Bobur A.
Tivanov, Mikhail
Makhmudov, Mirzavkiy
Isakov, D. Z.
Khurramov, Ramozan
Yuldoshov, Ruhiddin
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Thin Solid Films. Elsevier. 2024, 807, 140554. ISSN 0040-6090. eISSN 1879-2731. Verfügbar unter: doi: 10.1016/j.tsf.2024.140554
Zusammenfassung
Antimony sulfide selenide, Sb2(SxSe1-x)3 (x = 0–1), is a tunable bandgap compound that combines the advantages of antimony sulfide (Sb2S3) and antimony selenide (Sb2Se3). This material shows great potential as a light-absorbing material for low-cost, low-toxicity, and highly stable thin-film solar cells. In this study, Sb2(SxSe1-x)3 thin films were deposited by chemical-molecular beam deposition on soda-lime glass substrates using antimony (Sb), selenium (Se), and sulfur (S) precursors at a substrate temperature of 420 °C. By independently controlling the source temperatures of Sb, Se, and S, Sb2(SxSe1-x)3 thin films with varying component ratios were obtained. Scanning electron microscopy revealed significant changes in the surface morphology of the films depending on the elemental ratio of [S]/([S]+[Se]). Crystallites shaped like cylindrical microrods with d = 0.5–2 µm diameter and l = 3–5 µm length were grown at a certain angle on the substrate. X-ray diffraction patterns showed peaks corresponding to the orthorhombic structures of Sb2Se3, Sb2S3 and their ternary compounds Sb2(SxSe1-x)3. The optical characterization revealed a high absorption coefficient of 105 cm−1 in the visible and near-infrared light regions. The band gap of the compounds changed almost linearly from 1.2 eV to 1.36 eV with a change in the ratio of elements [S]/([S]+[Se]) from 0.03 to 0.08.
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Fachgebiet (DDC)
530 Physik
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Antimony sulfide selenide, Chemical molecular beam deposition, Band gap, Absorbance, Photovoltaics
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RAZYKOV, Takhir M., Kudrat М. KUCHKAROV, Bobur A. ERGASHEV, Lukas SCHMIDT-MENDE, Tim MAYER, Mikhail TIVANOV, Mirzavkiy MAKHMUDOV, D. Z. ISAKOV, Ramozan KHURRAMOV, Ruhiddin YULDOSHOV, 2024. Growth and characterization of Sb2(SxSe1-x)3 thin films prepared by chemical-molecular beam deposition for solar cell applications. In: Thin Solid Films. Elsevier. 2024, 807, 140554. ISSN 0040-6090. eISSN 1879-2731. Verfügbar unter: doi: 10.1016/j.tsf.2024.140554BibTex
@article{Razykov2024-10Growt-71212,
year={2024},
doi={10.1016/j.tsf.2024.140554},
title={Growth and characterization of Sb<sub>2</sub>(S<sub>x</sub>Se<sub>1-x</sub>)<sub>3</sub> thin films prepared by chemical-molecular beam deposition for solar cell applications},
volume={807},
issn={0040-6090},
journal={Thin Solid Films},
author={Razykov, Takhir M. and Kuchkarov, Kudrat М. and Ergashev, Bobur A. and Schmidt-Mende, Lukas and Mayer, Tim and Tivanov, Mikhail and Makhmudov, Mirzavkiy and Isakov, D. Z. and Khurramov, Ramozan and Yuldoshov, Ruhiddin},
note={Article Number: 140554}
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<dcterms:abstract>Antimony sulfide selenide, Sb<sub>2</sub>(S<sub>x</sub>Se<sub>1-x</sub>)<sub>3</sub> (x = 0–1), is a tunable bandgap compound that combines the advantages of antimony sulfide (Sb<sub>2</sub>S<sub>3</sub>) and antimony selenide (Sb<sub>2</sub>Se<sub>3</sub>). This material shows great potential as a light-absorbing material for low-cost, low-toxicity, and highly stable thin-film solar cells. In this study, Sb2(SxSe1-x)3 thin films were deposited by chemical-molecular beam deposition on soda-lime glass substrates using antimony (Sb), selenium (Se), and sulfur (S) precursors at a substrate temperature of 420 °C. By independently controlling the source temperatures of Sb, Se, and S, Sb<sub>2</sub>(S<sub>x</sub>Se<sub>1-x</sub>)<sub>3</sub> thin films with varying component ratios were obtained. Scanning electron microscopy revealed significant changes in the surface morphology of the films depending on the elemental ratio of [S]/([S]+[Se]). Crystallites shaped like cylindrical microrods with d = 0.5–2 µm diameter and l = 3–5 µm length were grown at a certain angle on the substrate. X-ray diffraction patterns showed peaks corresponding to the orthorhombic structures of Sb<sub>2</sub>Se<sub>3</sub>, Sb<sub>2</sub>S<sub>3</sub> and their ternary compounds Sb<sub>2</sub>(S<sub>x</sub>Se<sub>1-x</sub>)<sub>3</sub>. The optical characterization revealed a high absorption coefficient of 105 cm−1 in the visible and near-infrared light regions. The band gap of the compounds changed almost linearly from 1.2 eV to 1.36 eV with a change in the ratio of elements [S]/([S]+[Se]) from 0.03 to 0.08.</dcterms:abstract>
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