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Anion-assisted Yb3+ and Mn2+ doping of 0D and 2D lead halide perovskite nanostructures. / Tatarinov, Danila A.; Sokolova, Anastasiia V.; Skurlov, Ivan D.; Danilov, Denis V.; Koroleva, Aleksandra V.; Kuzmenko, Natalya K.; Timkina, Yuliya A.; Baranov, Mikhail A.; Zhizhin, Evgeniy V.; Tcypkin, Anton N.; Litvin, Aleksandr P.

в: Journal of Materials Chemistry C, Том 11, № 17, 10.04.2023, стр. 5657-5666.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Tatarinov, DA, Sokolova, AV, Skurlov, ID, Danilov, DV, Koroleva, AV, Kuzmenko, NK, Timkina, YA, Baranov, MA, Zhizhin, EV, Tcypkin, AN & Litvin, AP 2023, 'Anion-assisted Yb3+ and Mn2+ doping of 0D and 2D lead halide perovskite nanostructures', Journal of Materials Chemistry C, Том. 11, № 17, стр. 5657-5666. https://doi.org/10.1039/d3tc00180f

APA

Tatarinov, D. A., Sokolova, A. V., Skurlov, I. D., Danilov, D. V., Koroleva, A. V., Kuzmenko, N. K., Timkina, Y. A., Baranov, M. A., Zhizhin, E. V., Tcypkin, A. N., & Litvin, A. P. (2023). Anion-assisted Yb3+ and Mn2+ doping of 0D and 2D lead halide perovskite nanostructures. Journal of Materials Chemistry C, 11(17), 5657-5666. https://doi.org/10.1039/d3tc00180f

Vancouver

Tatarinov DA, Sokolova AV, Skurlov ID, Danilov DV, Koroleva AV, Kuzmenko NK и пр. Anion-assisted Yb3+ and Mn2+ doping of 0D and 2D lead halide perovskite nanostructures. Journal of Materials Chemistry C. 2023 Апр. 10;11(17):5657-5666. https://doi.org/10.1039/d3tc00180f

Author

Tatarinov, Danila A. ; Sokolova, Anastasiia V. ; Skurlov, Ivan D. ; Danilov, Denis V. ; Koroleva, Aleksandra V. ; Kuzmenko, Natalya K. ; Timkina, Yuliya A. ; Baranov, Mikhail A. ; Zhizhin, Evgeniy V. ; Tcypkin, Anton N. ; Litvin, Aleksandr P. / Anion-assisted Yb3+ and Mn2+ doping of 0D and 2D lead halide perovskite nanostructures. в: Journal of Materials Chemistry C. 2023 ; Том 11, № 17. стр. 5657-5666.

BibTeX

@article{454065a40d794f46b0a470b6d1f99861,
title = "Anion-assisted Yb3+ and Mn2+ doping of 0D and 2D lead halide perovskite nanostructures",
abstract = "Currently, lead halide perovskite nanostructures are an essential platform for designing new optical materials with required functionalities. Photoluminescence (PL) wavelength tuning is an important tool for targeted applications of optical materials in photonics and optoelectronics. Doping with lanthanides allows shifting the PL band into the near-infrared spectral region. Although post-synthetic doping is a versatile strategy that uses high-quality nanostructures with a given morphology, the approach is poorly developed for lanthanide-doped perovskites. Here, we propose anion-assisted cation doping in a nonpolar solvent at room temperature as a universal method to create multiple-band emitting lead halide perovskite nanostructures. Applying precursors MClx (M = Yb, Mn) to the pre-synthesized perovskite nanostructures, we have obtained near-infrared emitting Yb3+-doped CsPbClxBr3−x and FAPbClxBr3−x nanocrystals and nanoplatelets, as well as double-wavelength emitting Mn2+-doped, and triple-wavelength emitting Mn2+–Yb3+ co-doped CsPbClxBr3−x nanoplatelets. In all cases, doping is carried out due to simultaneous introduction of new cations and anions; the process dynamics depends on the type of doping ion, and the composition and morphology of the pristine perovskite nanomaterial. The versatility of the doping approach proposed opens up new ways for creating perovskite nanostructures with unique optical properties.",
author = "Tatarinov, {Danila A.} and Sokolova, {Anastasiia V.} and Skurlov, {Ivan D.} and Danilov, {Denis V.} and Koroleva, {Aleksandra V.} and Kuzmenko, {Natalya K.} and Timkina, {Yuliya A.} and Baranov, {Mikhail A.} and Zhizhin, {Evgeniy V.} and Tcypkin, {Anton N.} and Litvin, {Aleksandr P.}",
year = "2023",
month = apr,
day = "10",
doi = "10.1039/d3tc00180f",
language = "English",
volume = "11",
pages = "5657--5666",
journal = "Journal of Materials Chemistry C",
issn = "2050-7526",
publisher = "Royal Society of Chemistry",
number = "17",

}

RIS

TY - JOUR

T1 - Anion-assisted Yb3+ and Mn2+ doping of 0D and 2D lead halide perovskite nanostructures

AU - Tatarinov, Danila A.

AU - Sokolova, Anastasiia V.

AU - Skurlov, Ivan D.

AU - Danilov, Denis V.

AU - Koroleva, Aleksandra V.

AU - Kuzmenko, Natalya K.

AU - Timkina, Yuliya A.

AU - Baranov, Mikhail A.

AU - Zhizhin, Evgeniy V.

AU - Tcypkin, Anton N.

AU - Litvin, Aleksandr P.

PY - 2023/4/10

Y1 - 2023/4/10

N2 - Currently, lead halide perovskite nanostructures are an essential platform for designing new optical materials with required functionalities. Photoluminescence (PL) wavelength tuning is an important tool for targeted applications of optical materials in photonics and optoelectronics. Doping with lanthanides allows shifting the PL band into the near-infrared spectral region. Although post-synthetic doping is a versatile strategy that uses high-quality nanostructures with a given morphology, the approach is poorly developed for lanthanide-doped perovskites. Here, we propose anion-assisted cation doping in a nonpolar solvent at room temperature as a universal method to create multiple-band emitting lead halide perovskite nanostructures. Applying precursors MClx (M = Yb, Mn) to the pre-synthesized perovskite nanostructures, we have obtained near-infrared emitting Yb3+-doped CsPbClxBr3−x and FAPbClxBr3−x nanocrystals and nanoplatelets, as well as double-wavelength emitting Mn2+-doped, and triple-wavelength emitting Mn2+–Yb3+ co-doped CsPbClxBr3−x nanoplatelets. In all cases, doping is carried out due to simultaneous introduction of new cations and anions; the process dynamics depends on the type of doping ion, and the composition and morphology of the pristine perovskite nanomaterial. The versatility of the doping approach proposed opens up new ways for creating perovskite nanostructures with unique optical properties.

AB - Currently, lead halide perovskite nanostructures are an essential platform for designing new optical materials with required functionalities. Photoluminescence (PL) wavelength tuning is an important tool for targeted applications of optical materials in photonics and optoelectronics. Doping with lanthanides allows shifting the PL band into the near-infrared spectral region. Although post-synthetic doping is a versatile strategy that uses high-quality nanostructures with a given morphology, the approach is poorly developed for lanthanide-doped perovskites. Here, we propose anion-assisted cation doping in a nonpolar solvent at room temperature as a universal method to create multiple-band emitting lead halide perovskite nanostructures. Applying precursors MClx (M = Yb, Mn) to the pre-synthesized perovskite nanostructures, we have obtained near-infrared emitting Yb3+-doped CsPbClxBr3−x and FAPbClxBr3−x nanocrystals and nanoplatelets, as well as double-wavelength emitting Mn2+-doped, and triple-wavelength emitting Mn2+–Yb3+ co-doped CsPbClxBr3−x nanoplatelets. In all cases, doping is carried out due to simultaneous introduction of new cations and anions; the process dynamics depends on the type of doping ion, and the composition and morphology of the pristine perovskite nanomaterial. The versatility of the doping approach proposed opens up new ways for creating perovskite nanostructures with unique optical properties.

U2 - 10.1039/d3tc00180f

DO - 10.1039/d3tc00180f

M3 - Article

VL - 11

SP - 5657

EP - 5666

JO - Journal of Materials Chemistry C

JF - Journal of Materials Chemistry C

SN - 2050-7526

IS - 17

ER -

ID: 106593699