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Luminescence and Colorimetric Properties of Ultrathin Cadmium Selenide Nanoscrolls

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Abstract

Luminescence and colorimetric properties of ultrathin two-dimensional CdSe nanostructures rolled into scrolls 2.5 monolayers thick are studied. It is shown that photoluminescence of samples under study is caused by interband transitions which corresponds to the violet region of the visible spectrum, and transitions involving surface states, which corresponds to the almost entire optical range. The relaxation dynamics of the excited states corresponding to these transitions was studied. The chromaticity coordinates and dominant wavelengths are calculated for ultrathin CdSe nanoscrolls. The colorimetric characteristics of nanoparticles under study are analyzed in comparison with thicker nanoscrolls and quasi-two-dimensional CdSe nanocrystals from the literature sources.

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Funding

This work was supported by ongoing institutional funding. No additional grants to carry out or direct this particular research were obtained.

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Authors and Affiliations

  1. Lebedev Physical Institute, Russian Academy of Sciences, 119991, Moscow, Russia

    D. S. Daibagya, I. A. Zakharchuk, A. V. Osadchenko, A. S. Selyukov, S. A. Ambrozevich & M. L. Skorikov

  2. Moscow Polytechnic University, 107023, Moscow, Russia

    D. S. Daibagya

  3. Bauman Moscow State Technical University, 105005, Moscow, Russia

    D. S. Daibagya

  4. All-Russian Institute for Scientific and Technical Information (VINITI), Russian Academy of Sciences, 125190, Moscow, Russia

    A. S. Selyukov

  5. Lomonosov Moscow State University, 119991, Moscow, Russia

    R. B. Vasiliev

Authors
  1. D. S. Daibagya
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  2. I. A. Zakharchuk
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  3. A. V. Osadchenko
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  4. A. S. Selyukov
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  5. S. A. Ambrozevich
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  6. M. L. Skorikov
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  7. R. B. Vasiliev
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Corresponding author

Correspondence to D. S. Daibagya.

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Translated by A. Kazantsev

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Daibagya, D.S., Zakharchuk, I.A., Osadchenko, A.V. et al. Luminescence and Colorimetric Properties of Ultrathin Cadmium Selenide Nanoscrolls. Bull. Lebedev Phys. Inst. 50, 510–514 (2023). https://doi.org/10.3103/S1068335623110118

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  • DOI: https://doi.org/10.3103/S1068335623110118

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