Spectral and kinetic features of thermoluminescence in hexagonal boron nitride powder after UV-irradiation / Weinstein I.A., Vokhmintsev A.S., Minin M.G., Kartashov V.V., Chernetsky I.V. // Radiation Measurements. - 2013. - V. 56, l. . - P. 236-239.

ISSN:
13504487
Type:
Article
Abstract:
Thermally stimulated luminescence (TL) from UV-irradiated h-BN powder synthesized using carbamide technique was studied. Three TL peaks at T max = 380, 500 and 600 K during linear heating with 2 K/s rate in RT - 773 K temperature range were observed. It was found that the 2.90 and 3.25 eV emission bands, which were related with recombination centers on the basis of VN and BO--complexes, dominate in TL spectra of h-BN. Experimental TL glow curves were analyzed in terms of general order kinetics and energy parameters of responsible capture levels were estimated. It was shown, considering the independent data on the luminescent properties of hexagonal boron nitride in different structural states, that TL peaks at 380 K and 600 K were due to traps based on the one-boron and the three-boron centers with thermal depth EA = 0.7 and 1.0 eV, respectively. The possible origin of the trap with EA = 1.6 eV, responsible for the TL peak at 500 K, is discussed. © 2013 Elsevier B.V. All rights reserved.
Author keywords:
Boron nitride; General order kinetics; Nitrogen vacancy; Oxygen-boron complexes
Index keywords:
Energy parameters; General order kinetics; Hexagonal boron nitride; Luminescent property; Nitrogen vacancies; Oxygen-boron complexes; Recombination centers; Thermally stimulated luminescence; Boron ni
DOI:
10.1016/j.radmeas.2012.12.017
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Affiliations Ural Federal University, Research and Educational Center, Nanomaterials and Nanotechnologies, Mira Street 19, Ekaterinburg 620002, Russian Federation
Author Keywords Boron nitride; General order kinetics; Nitrogen vacancy; Oxygen-boron complexes
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Correspondence Address Weinstein, I.A.; Ural Federal University, Research and Educational Center, Nanomaterials and Nanotechnologies, Mira Street 19, Ekaterinburg 620002, Russian Federation; email: i.a.weinstein@ustu.ru
CODEN RMEAE
Language of Original Document English
Abbreviated Source Title Radiat. Meas.
Source Scopus