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Optics and Spectroscopy, 2019, Volume 126, Issue 1, Pages 50–52
DOI: https://doi.org/10.21883/OS.2019.01.47052.283-18 (Mi os802) 		 
This article is cited in 25 scientific papers (total in 25 papers)

International scientific conference "XIII International Conference on hole burning, single molecule, and related spectroscopies: science and applications (HBSM-2018)"
Optics of low-dimensional structures, mesostructures, and metamaterials

Analysis of the temperature dependence of the exciton luminescence spectra of cadmium selenide quantum dots grown in a liquid crystal matrix

K. A. Magaryanab, K. R. Karimullinab, I. A. Vasil’evaa, A. V. Naumovab

a Moscow State Pedagogical University
b Institute of Spectroscopy, Russian Academy of Sciences, Troitsk, Moscow
Citations (25)
DOI: https://doi.org/10.21883/OS.2019.01.47052.283-18
Abstract: The temperature dependences of the positions of maxima of exciton bands in the luminescence spectra of liquid crystal nanocomposites with CdSe quantum dots with sizes of 1.8 and 2.3 nm at T = 77–300 K have been analyzed. The analysis under the theoretical model taking into account the electron–phonon interaction inside quantum dots has made it possible to calculate the values of the Huang–Rhys factor and average phonon energy in nanocrystals under study.
Received: 24.09.2018
English version:
Optics and Spectroscopy, 2019, Volume 126, Issue 1, Pages 41–43
DOI: https://doi.org/10.1134/S0030400X19010107
Bibliographic databases:
Document Type: Article
Language: Russian
Citation: K. A. Magaryan, K. R. Karimullin, I. A. Vasil'eva, A. V. Naumov, “Analysis of the temperature dependence of the exciton luminescence spectra of cadmium selenide quantum dots grown in a liquid crystal matrix”, Optics and Spectroscopy, 126:1 (2019), 50–52; Optics and Spectroscopy, 126:1 (2019), 41–43
Citation in format AMSBIB
\Bibitem{MagKarVas19}
\by K.~A.~Magaryan, K.~R.~Karimullin, I.~A.~Vasil'eva, A.~V.~Naumov
\paper Analysis of the temperature dependence of the exciton luminescence spectra of cadmium selenide quantum dots grown in a liquid crystal matrix
\jour Optics and Spectroscopy
\yr 2019
\vol 126
\issue 1
\pages 50--52
\mathnet{http://mi.mathnet.ru/os802}
\crossref{https://doi.org/10.21883/OS.2019.01.47052.283-18}
\elib{https://elibrary.ru/item.asp?id=37530114}
\transl
\jour Optics and Spectroscopy
\yr 2019
\vol 126
\issue 1
\pages 41--43
\crossref{https://doi.org/10.1134/S0030400X19010107}
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  • https://www.mathnet.ru/eng/os802
  • https://www.mathnet.ru/eng/os/v126/i1/p50
    • This publication is cited in the following 25 articles:
    1. I. I. Popov, R. V. Yusupov, A. V. Petrov, A. R. Bessonov, A. M. Gaia, A. V. Moroz, “Photon Echo on Excitons and Its Role in the Development of Nanoelectronic Devices Based on Quantum-Sized Structures in Thin Zinc Oxide Films”, Bull. Russ. Acad. Sci. Phys., 88:2 (2024), 237  crossref
    2. I. I. Popov, R. V. Yusupov, A. V. Petrov, A. R. Bessonov, A. M. Gaia, A. V. Moroz, “Photon echo on excitons for the development of nanoelectronic devices based on a quantum-size structures in a thin zinc oxide films”, Izvestiâ Akademii nauk SSSR. Seriâ fizičeskaâ, 88:2 (2024), 269  crossref
    3. K. R. Karimullin, A. I. Arzhanov, N. V. Surovtsev, A. V. Naumov, “Electron–Phonon Interaction in Composites with Colloidal Quantum Dots: A Study by Luminescence Spectroscopy and Raman Scattering”, Opt. Spectrosc., 131:10 (2023), 995  crossref
    4. V. S. Abramov, “Active Objects, the Asymmetry of Matter, Black Holes, and the Higgs Boson in Fractal Systems”, Bull. Russ. Acad. Sci. Phys., 86:7 (2022), 870  crossref
    5. Nur Diyana Halim, Muhammad Safwan Zaini, Zainal Abidin Talib, Josephine Ying Chyi Liew, Mazliana Ahmad Kamarudin, “Study of the Electron-Phonon Coupling in PbS/MnTe Quantum Dots Based on Temperature-Dependent Photoluminescence”, Micromachines, 13:3 (2022), 443  crossref
    6. Xingchang Lu, Xiaoqi Hou, Hailin Tang, Xinyao Yi, Jianxiu Wang, “A High-Quality CdSe/CdS/ZnS Quantum-Dot-Based FRET Aptasensor for the Simultaneous Detection of Two Different Alzheimer's Disease Core Biomarkers”, Nanomaterials, 12:22 (2022), 4031  crossref
    7. M. Yu. Gubin, I. V. Dzedolik, T. V. Prokhorova, V. S. Pereskokov, A. Yu. Leksin, “Switching Effects in Plasmonic Circuits Based on Thin Metal Films and Nanostructures with High Photoconductivity”, Opt. Spectrosc., 130:5 (2022), 303  crossref
    8. Yankai Zhou, Xingrui Luo, Jiayan Yang, Qingqing Qiu, Tengfeng Xie, Tongxiang Liang, “Application of Quantum Dot Interface Modification Layer in Perovskite Solar Cells: Progress and Perspectives”, Nanomaterials, 12:12 (2022), 2102  crossref
    9. Sulayman A. Oladepo, “Temperature-dependent fluorescence emission of 4-cyano-4′-pentylbiphenyl and 4-cyano-4′-hexylbiphenyl liquid crystals and their bulk phase transitions”, Journal of Molecular Liquids, 323 (2021), 114590  crossref
    10. I. I. Popov, A. V. Moroz, D. V. Mineev, A. A. Gladysheva, N. I. Sushentsov, “Quantum-Sized Objects in the Form of Exciton and Trion Traps: Their Role in Excitonic Partial Blocking of the Memristor Properties of Thin Zinc Oxide Films”, Bull. Russ. Acad. Sci. Phys., 85:2 (2021), 210  crossref
    11. V. V. Samartsev, T. G. Mitrofanova, O. Kh. Khasanov, “Using a Locked Exciton Echo in Modulation Spectroscopy on Localized Excitons of an Ensemble of Nanoparticles with an Emitting Core of CdSe”, Bull. Russ. Acad. Sci. Phys., 85:12 (2021), 1367  crossref
    12. V V Samartsev, T G Mitrofanova, “Exciton coherence in a layer of CdSe/CdS/ZnS semiconductor quantum dots under continuous laser excitation and two-quantum excitonic transient holograms”, J. Phys.: Conf. Ser., 1890:1 (2021), 012004  crossref
    13. V. V. Samartsev, T. G. Mitrofanova, O. Kh. Khasanov, “Two-Quantum Transient Holograms on the Exciton Levels of Semiconductor Quantum Dots”, Bull. Russ. Acad. Sci. Phys., 85:2 (2021), 216  crossref
    14. Richard O. Ocaya, “Thermal tuning of light-emitting diode wavelength as an implication of the Varshni equation”, Measurement, 162 (2020), 107910  crossref
    15. V. V. Samartsev, T. G. Mitrofanova, O. Kh. Khasanov, “Modeling the Induction of Excitons upon the Continuous-Wave Laser Excitation of an Ensemble of Semiconductor Quantum Dots”, Bull. Russ. Acad. Sci. Phys., 84:12 (2020), 1469  crossref
    16. M. Yu. Gubin, A. V. Prokhorov, “Formation of Nonclassical Optical States in Spaser Systems Controlled by an External Magnetic Field”, Bull. Russ. Acad. Sci. Phys., 84:3 (2020), 313  crossref
    17. A. E. Eskova, A. I. Arzhanov, K. A. Magaryan, K. R. Karimullin, A. V. Naumov, “Effect of Concentration on the Spectral–Luminescent Properties of Quantum Dots in Colloidal Solutions”, Bull. Russ. Acad. Sci. Phys., 84:1 (2020), 40  crossref
    18. D. V. Lapaev, V. G. Nikiforov, V. S. Lobkov, R. M. Ziyatdinova, A. A. Knyazev, Yu. G. Galyametdinov, “Dependence of the Operational Characteristics of a Luminescent Temperature Probe Based on a Vitrified Film of a Europium(III) β-Diketonate Complex on the Fixing Technology”, Bull. Russ. Acad. Sci. Phys., 84:12 (2020), 1444  crossref
    19. I. I. Popov, I. A. Arkhireev, N. S. Vashurin, D. E. Voronin, A. A. Gladysheva, S. I. Ksenofontov, A. V. Moroz, D. A. Nikitin, S. A. Stepanov, N. I. Sushentsov, “Assessing Trionic Spectral Line Broadening of a Si(P)/Si(B)/ZnO Thin Film as a Function of Exciton–Phonon Interaction and Other Factors”, Bull. Russ. Acad. Sci. Phys., 84:3 (2020), 308  crossref
    20. K R Karimullin, A I Arzhanov, A E Es'kova, K A Magaryan, A V Naumov, “Electron-phonon interaction in colloidal CdSe quantum dots embedded in different solid matrices”, J. Phys.: Conf. Ser., 1461:1 (2020), 012114  crossref
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