Standard

Research and Optimization of the Synthesis of GdF3:Tb X-Ray Phosphors for X-Ray Photodynamic Therapy. / Ustabaev, P. Sh.; Zykova, P. D.; Bakhmetev, V. V.; Leonova, E. I.

в: Russian Journal of Bioorganic Chemistry, Том 50, № 2, 01.04.2024, стр. 522-529.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

Harvard

Ustabaev, PS, Zykova, PD, Bakhmetev, VV & Leonova, EI 2024, 'Research and Optimization of the Synthesis of GdF3:Tb X-Ray Phosphors for X-Ray Photodynamic Therapy', Russian Journal of Bioorganic Chemistry, Том. 50, № 2, стр. 522-529. https://doi.org/10.1134/s1068162024020894

APA

Ustabaev, P. S., Zykova, P. D., Bakhmetev, V. V., & Leonova, E. I. (2024). Research and Optimization of the Synthesis of GdF3:Tb X-Ray Phosphors for X-Ray Photodynamic Therapy. Russian Journal of Bioorganic Chemistry, 50(2), 522-529. https://doi.org/10.1134/s1068162024020894

Vancouver

Ustabaev PS, Zykova PD, Bakhmetev VV, Leonova EI. Research and Optimization of the Synthesis of GdF3:Tb X-Ray Phosphors for X-Ray Photodynamic Therapy. Russian Journal of Bioorganic Chemistry. 2024 Апр. 1;50(2):522-529. https://doi.org/10.1134/s1068162024020894

Author

Ustabaev, P. Sh. ; Zykova, P. D. ; Bakhmetev, V. V. ; Leonova, E. I. / Research and Optimization of the Synthesis of GdF3:Tb X-Ray Phosphors for X-Ray Photodynamic Therapy. в: Russian Journal of Bioorganic Chemistry. 2024 ; Том 50, № 2. стр. 522-529.

BibTeX

@article{9de3b5117f34491aadf4fd92329b3dce,
title = "Research and Optimization of the Synthesis of GdF3:Tb X-Ray Phosphors for X-Ray Photodynamic Therapy",
abstract = "Objective: GdF3:Tb nanosized phosphors were synthesized by the sol–gel and hydrothermal methods. Directed crystallite growth toward the (020) and (210) crystallographic planes was revealed. Methods: The chemical trap method was used to explore the efficiency of reactive oxygen production of the GdF3:Tb–Rose Bengal photosensitizer system. Results and Discussion: It was shown that the phosphors synthesized by the hydrothermal method have a smaller particle size and a higher luminescence intensity compared to those synthesized by the sol–gel method. Due to their luminescent characteristics and particle size, the GdF3:Tb nanosized phosphors synthesized by the hydrothermal method are suitable for use, in combination with the Rose Bengal photosensitizer, in drug formulations for X-ray photodynamic therapy of oncological diseases. Conclusions: The addition of the GdF3:Tb nanosized phosphors, synthesized by the hydrothermal method, significantly (by 17%) increases the production of reactive oxygen.",
keywords = "GdF3:Tb, X-ray photodynamic therapy, active oxygen, hydrothermal method, nanosized phosphors, sol–gel method",
author = "Ustabaev, {P. Sh.} and Zykova, {P. D.} and Bakhmetev, {V. V.} and Leonova, {E. I.}",
year = "2024",
month = apr,
day = "1",
doi = "10.1134/s1068162024020894",
language = "English",
volume = "50",
pages = "522--529",
journal = "Russian Journal of Bioorganic Chemistry",
issn = "1068-1620",
publisher = "МАИК {"}Наука/Интерпериодика{"}",
number = "2",

}

RIS

TY - JOUR

T1 - Research and Optimization of the Synthesis of GdF3:Tb X-Ray Phosphors for X-Ray Photodynamic Therapy

AU - Ustabaev, P. Sh.

AU - Zykova, P. D.

AU - Bakhmetev, V. V.

AU - Leonova, E. I.

PY - 2024/4/1

Y1 - 2024/4/1

N2 - Objective: GdF3:Tb nanosized phosphors were synthesized by the sol–gel and hydrothermal methods. Directed crystallite growth toward the (020) and (210) crystallographic planes was revealed. Methods: The chemical trap method was used to explore the efficiency of reactive oxygen production of the GdF3:Tb–Rose Bengal photosensitizer system. Results and Discussion: It was shown that the phosphors synthesized by the hydrothermal method have a smaller particle size and a higher luminescence intensity compared to those synthesized by the sol–gel method. Due to their luminescent characteristics and particle size, the GdF3:Tb nanosized phosphors synthesized by the hydrothermal method are suitable for use, in combination with the Rose Bengal photosensitizer, in drug formulations for X-ray photodynamic therapy of oncological diseases. Conclusions: The addition of the GdF3:Tb nanosized phosphors, synthesized by the hydrothermal method, significantly (by 17%) increases the production of reactive oxygen.

AB - Objective: GdF3:Tb nanosized phosphors were synthesized by the sol–gel and hydrothermal methods. Directed crystallite growth toward the (020) and (210) crystallographic planes was revealed. Methods: The chemical trap method was used to explore the efficiency of reactive oxygen production of the GdF3:Tb–Rose Bengal photosensitizer system. Results and Discussion: It was shown that the phosphors synthesized by the hydrothermal method have a smaller particle size and a higher luminescence intensity compared to those synthesized by the sol–gel method. Due to their luminescent characteristics and particle size, the GdF3:Tb nanosized phosphors synthesized by the hydrothermal method are suitable for use, in combination with the Rose Bengal photosensitizer, in drug formulations for X-ray photodynamic therapy of oncological diseases. Conclusions: The addition of the GdF3:Tb nanosized phosphors, synthesized by the hydrothermal method, significantly (by 17%) increases the production of reactive oxygen.

KW - GdF3:Tb

KW - X-ray photodynamic therapy

KW - active oxygen

KW - hydrothermal method

KW - nanosized phosphors

KW - sol–gel method

UR - https://www.mendeley.com/catalogue/e871e514-3af4-3fd5-82da-1c3c18f38df9/

U2 - 10.1134/s1068162024020894

DO - 10.1134/s1068162024020894

M3 - Article

VL - 50

SP - 522

EP - 529

JO - Russian Journal of Bioorganic Chemistry

JF - Russian Journal of Bioorganic Chemistry

SN - 1068-1620

IS - 2

ER -

ID: 120144320