Space-selective enhancement of blue photoluminescence in gallium germanosilicate glass through laser-induced nanostructuring

Crystalline gallium oxide is known to possess UV-excited blue photoluminescence together with one of the widest band gaps among transparent conducting oxides, with a transmittance range extending from the visible to the near-UV range, thus making it a promising material for efficient solar-blind UV-...

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Bibliographic Details
Published in:Materials letters 2014-05, Vol.122, p.174-177
Main Authors: Lotarev, Sergey V., Lipatiev, Alexey S., Golubev, Nikita V., Ignat’eva, Elena S., Usmanova, Liliana Z., Priseko, Yury S., Lepekhin, Nikolay M., Paleari, Alberto, Sigaev, Vladimir N.
Format: Article
Language:English
Subjects:
Amorphous materials
Broadband
Channels
Detectors
Energy gaps (solid state)
Functional nanocrystalline materials
Gallium oxide
Glass
Glass-ceramics
Laser processing
Lasers
Luminescence
Nanocrystals
Nanostructure
Photoluminescence
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Summary:Crystalline gallium oxide is known to possess UV-excited blue photoluminescence together with one of the widest band gaps among transparent conducting oxides, with a transmittance range extending from the visible to the near-UV range, thus making it a promising material for efficient solar-blind UV-to-visible converters. In the present paper, we report for the first time laser-induced space-selective precipitation of γ-Ga2O3 nanosized crystals in alkali gallium germanosilicate glass using a sum frequency beam (271nm) of a copper vapor laser. At the glass surface, the laser writing process generates transparent nanostructured channels which emit broadband blue photoluminescence (centered at about 460nm) under UV exposure, with excitation efficiency peaked at about 260nm. Only much weaker blue photoluminescence can instead be observed in the starting non-irradiated glass from the precursor stage of the nanocrystallization. Spectral properties of light emission in the nanocrystallized regions are similar to those of earlier studied bulk nanostructured material produced from the same composition by heat treatment. Laser-written photoluminescent patterns in the studied glass provide advanced opportunities for developing novel solar-blind UV detectors. •Space-selective UV-excited blue luminescence was obtained in Ga-containing glass.•Sum frequency line of copper vapor laser at 271nm was used to treat the glass.•Laser treatment strongly enhances initial weak photoluminescence of the glass.•γ-Ga2O3 nanocrystals are a source of blue photoluminescence in the studied glass.
ISSN:0167-577X
1873-4979
DOI:10.1016/j.matlet.2014.02.026