Infrared Luminescent Hybrid Materials Based on Inorganic Glass Matrices

被引:0
|
作者
K. I. Runina
L. V. Popkova
A. V. Khomyakov
R. I. Avetisov
O. B. Petrova
I. Kh. Avetisov
机构
[1] D. I. Mendeleev University of Chemical Technology of Russia,
来源
Glass and Ceramics | 2021年 / 78卷
关键词
hybrid materials; 8-oxycholates; luminescence; low-melting glass; thin films; ytterbium; IR-range;
D O I
暂无
中图分类号
学科分类号
摘要
Organo-inorganic hybrid materials based on inorganic oxyfluoride lead-borosilicate glass matrices and the metal-complex compound tris-(8-oxycholate) ytterbium (III) were obtained by the melt method. The spectral-luminescence properties of tris-(8-oxycholate) ytterbium and hybrid materials in the visible and IR ranges were studied under different excitations (377 and 785 nm). It is shown that the intensity of IR luminescence in the initial metal-complex luminophore surpasses the luminescence in the visible range and vice versa in the obtained hybrid materials — the intensity of visible luminescence significantly surpasses the IR-luminescence.
引用
收藏
页码:215 / 218
页数:3
相关论文
共 50 条
  • [1] Infrared Luminescent Hybrid Materials Based on Inorganic Glass Matrices
    Runina, K., I
    Popkova, L., V
    Khomyakov, A., V
    Avetisov, R., I
    Petrova, O. B.
    Avetisov, I. Kh
    GLASS AND CERAMICS, 2021, 78 (5-6) : 215 - 218
  • [2] Hybrid Materials Based on Organic Luminophores in Inorganic Glass Matrix
    Petrova, O. B.
    Avetisov, R. I.
    Avetisov, I. Kh.
    Mushkalo, O. A.
    Khomyakov, A. V.
    Cherednichenko, A. G.
    OPTICS AND SPECTROSCOPY, 2013, 114 (06) : 886 - 889
  • [3] Hybrid materials based on organic luminophores in inorganic glass matrix
    O. B. Petrova
    R. I. Avetisov
    I. Kh. Avetisov
    O. A. Mushkalo
    A. V. Khomyakov
    A. G. Cherednichenko
    Optics and Spectroscopy, 2013, 114 : 886 - 889
  • [4] ORGANO-INORGANIC LUMINESCENT HYBRID MATERIALS BASED ON LEAD FLUORIDE AND ORGANIC PHOSPHORS
    Runina, K., I
    Petrova, O. B.
    Khomyakov, A., V
    Zykova, M. P.
    Avetissov, I. Ch
    Mayakova, M. N.
    2019 IEEE 8TH INTERNATIONAL CONFERENCE ON ADVANCED OPTOELECTRONICS AND LASERS (CAOL), 2019, : 457 - 460
  • [5] Hybrid composites with glass/carbon fibers and inorganic/organic matrices
    Giancaspro, J
    Balaguru, P
    Lyon, R
    2001: A MATERIALS AND PROCESSES ODYSSEY, BOOKS 1 AND 2, 2001, 46 : 2582 - 2592
  • [6] Effect of inorganic matrix composition on luminescent properties of hybrid materials
    Runina, K. I.
    Shmelyova, V. A.
    Petrova, O. B.
    Khomyakov, A. V.
    Akkuzina, A. A.
    Taidakov, I. V.
    Avetisov, R. I.
    Avetissov, I. Ch.
    2018 INTERNATIONAL CONFERENCE LASER OPTICS (ICLO 2018), 2018, : 402 - 402
  • [7] INORGANIC LUMINESCENT MATERIALS
    HILL, CGA
    CHEMISTRY IN BRITAIN, 1983, 19 (09) : 723 - 724
  • [8] Luminescent hybrid materials based on nanodiamonds
    Zhang, Dongxue
    Zhao, Qi
    Zang, Jinhao
    Lu, Ying-Jie
    Dong, Lin
    Shan, Chong-Xin
    CARBON, 2018, 127 : 170 - 176
  • [9] Two novel luminescent metallic based organic-inorganic functionalized silica hybrid materials
    Zheng, Yuhui
    Tang, Ke
    Wang, Qianming
    SYNTHETIC METALS, 2015, 209 : 262 - 266
  • [10] Luminescent solar concentrators: challenges for lanthanide-based organic-inorganic hybrid materials
    Correia, Sandra F. H.
    Bermudez, Veronica de Zea
    Ribeiro, Sidney J. L.
    Andre, Paulo S.
    Ferreira, Rute A. S.
    Carlos, Luis D.
    JOURNAL OF MATERIALS CHEMISTRY A, 2014, 2 (16) : 5580 - 5596
12345