Kathriin Utt scite author profile

a b s t r a c tWe employed a sol-gel route followed by a thermal treatment (up to 1000 1C) to prepare crystalline (monoclinic) hafnium dioxide. Thorough steady-state and time-resolved photoluminescence characterization of the material within the temperature range of 10-300 K was conducted by using various excitation sources. The most prominent spectroscopic feature of the material was an intense broad emission band centered at 2.3-2.5 eV with an associated excitation band centered at 4.2-4.4 eV (well below the bandgap of monoclinic hafnia). The emission was characterized by an essentially nonexponential, thermally stimulated decay and exposed a marked blue shift with the increase of temperature from 10 to 300 K. Relation of the emission to the intrinsic defects of hafnia is discussed.

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Photo-, thermo- and optically stimulated luminescence of monoclinic zirconia

Kiisk

Puust

Utt

et al. 2016

Journal of Luminescence

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Modeling of luminescence-based oxygen sensing by redox-switched energy transfer in nanocrystalline TiO2:Sm3+

Eltermann

Kiisk

Berholts

et al. 2018

Sensors and Actuators B: Chemical

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Study on photocatalytic activity of ZnO nanoneedles, nanorods, pyramids and hierarchical structures obtained by spray pyrolysis method

Klauson

Gromyko

Dedova

et al. 2015

Materials Science in Semiconductor Processing

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Sm3+ doped TiO2 as optical oxygen sensor material

et al. 2016

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Kathriin Utt

Photoluminescence of sol–gel-prepared hafnia

Photo-, thermo- and optically stimulated luminescence of monoclinic zirconia

Modeling of luminescence-based oxygen sensing by redox-switched energy transfer in nanocrystalline TiO2:Sm3+

Study on photocatalytic activity of ZnO nanoneedles, nanorods, pyramids and hierarchical structures obtained by spray pyrolysis method

Sm3+ doped TiO2 as optical oxygen sensor material

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