Journal of Synthetic Crystals, Volume. 49, Issue 7, 1201(2020)
Controllable Synthesis and Luminescent Properties of SiO2@Gd2O3∶Tb3+ Core-Shell Microspheres
[1] [1] Xia Z, Meijerink A. Ce3+-Doped garnet phosphors: composition modification, luminescence properties and applications[J].Chemical Society Reviews,2017,46(1): 275-299.
[2] [2] Zheng W, Sun B, Li Y, et al. Multicolor tunable luminescence and laser-sensitization induced upconversion enhancement in Ln-doped Gd2O3 crystals for anti-counterfeiting[J].Materials Chemistry Frontiers,2019,3: 2403-2413.
[3] [3] Xu Z, Yang J, Hou Z, et al. Hydrothermal synthesis and luminescent properties of Y2O3: Tb3+ and Gd2O3∶Tb3+ microrods[J].Materials Research Bulletin,2009,44(9): 1850-1857.
[4] [4] Xing G, Guo Q, Liu Q, et al. Highly uniform Gd(OH)3 and Gd2O3∶Eu3+ hexagram-like microcrystals: glucose-assisted hydrothermal synthesis, growth mechanism and luminescence property[J].Ceramics International,2014,40(5): 6569-6577.
[6] [6] Boopathi G, Kumar S, Ramesh G, et al. Co-precipitation synthesis, structural and luminescent behavior of erbium doped gadolinium oxide(Er3+∶Gd2O3) nanorods[J].Procedia Materials Science,2014,6: 1436-1443.
[7] [7] Wang H, Liu Y, Kong L. Synthesis and characterization of monodisperse spherical SiO2@Y2O3∶Tb3+ particles with core-shell structure[J].Advanced Materials Research,2014,997: 317-320.
[8] [8] Cho I, Kang J, Sohn Y. Photoluminescence imaging of SiO2@Y2O3: Eu(III) and SiO2@Y2O3∶Tb(III) core-shell nanostructures[J].Bulletin of the Korean Chemical Society,2014,35(2): 575-580.
[11] [11] Chen J, Sheng Y, Song Y, et al. Multi-morphology mesoporous silica nanoparticles for dye adsorption and multicolor luminescence applications[J].ACS Sustainable Chemistry & Engineering,2018,6: 3533-3545.
[13] [13] Gao F, Sheng Y, Song Y, et al. Facile synthesis and luminescence properties of europium(III)-doped silica nanotubes[J].Journal of Sol-Gel Science and Technology,2014,71(2): 313-323.
[14] [14] Li G, Yu M, Wang Z, et al. Sol-gel fabrication and photoluminescence properties of SiO2@Gd2O3∶Eu3+ core-shell particles[J].Journal of Nanoscience & Nanotechnology,2006,6(5): 1416-1422.
[15] [15] Hassan S, Kitamoto Y. Synthesis and characterization of sub-micrometer SiO2@NaYF4∶Yb/Er beads and NaYF4∶Yb/Er capsules for biomedical applications[J].Electrochimica Acta,2015,183: 160-164.
[16] [16] Ma P, Yuan B, Sheng Y, et al. Tunable emission, thermal stability and energy-transfer properties of SrAl2Si2O8∶Ce3+/Tb3+, phosphors for w-LEDs[J].Journal of Alloys and Compounds,2017,714: 627-635.
[17] [17] Guan H, Liu G, Wang J, et al. Tunable luminescence and energy transfer properties of NaGdF4∶Dy3+, Eu3+nanophosphors[J].New Journal of Chemistry,2014,38(10): 4901-4907.
[18] [18] Wang L, Wang Q, Xu X, et al. Energy transfer from Bi3+ to Eu3+ triggers exceptional long-wavelength excitation band in ZnWO4∶Bi3+, Eu3+ phosphors[J].Journal of Materials Chemistry C,2013,1(48): 8033-8040.
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CHEN Jie, JIANG Haifeng, GAO Yixin, WANG Shanshan, GAO Yan, ZENG Xiaodan. Controllable Synthesis and Luminescent Properties of SiO2@Gd2O3∶Tb3+ Core-Shell Microspheres[J]. Journal of Synthetic Crystals, 2020, 49(7): 1201
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Published Online: Aug. 18, 2020
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