Electronic excitations and defects in nanostructural Al2O3 / Gorbunov SV,Zatsepin AF,Pustovarov VA,Cholakh SO,Yakovlev VY // PHYSICS OF THE SOLID STATE. - 2005. - V. 47, l. 4. - P. 733-737.

ISSN/EISSN:
1063-7834 / нет данных
Type:
Article
Abstract:
A time-resolved cathodo- and photoluminescence study of nanostructural modifications of Al2O3 (powders and ceramics) excited by heavy-current electron beams, as well as by pulsed synchrotron radiation, is reported. It was found that Al2O3 nanopowders probed before and after Fe+ ion irradiation have the same phase composition (the gamma-phase/delta-phase ratio is equal to 1), an average grain size equal to similar to 17 nm, and practically the same set of broad cathodoluminescence (CL) bands peaking at 2.4, 3.2, and 3.8 eV. It was established that Al2O3 nanopowders exhibit fast photoluminescence (PL) (a band at 3.2 eV), whose decay kinetics is described by two exponential stages (tau(1) = 0.5 ns, tau(2) = 5.5 ns). Three bands, at 5.24, 6.13, and 7.44 eV, were isolated in the excitation spectrum of the fast PL. Two alternate models of PL centers were considered, according to which the 3.2-eV luminescence either originates from radiative relaxation of the P- centers (anion-cation vacancy pairs) or is due to the formation of surface analogs of the F+ center (F-S(+)-type centers). In addition to the fast luminescence, nano-Al2O3 was found to produce slow luminescence in the form of a broad band peaking at 3.5 eV. The excitation spectrum of the 3.5-eV luminescence obtained at T = 13 K exhibits two doublet bands with maxima at 7.8 and 8.3 eV. An analysis of the luminescent properties of nanostructural and single-crystal Al2O3 suggests that the slow luminescence of nanopowders at 3.5 eV is due to radiative annihilation of excitons localized near structural defects. (C) 2005 Pleiades Publishing, Inc.
Author keywords:
LUMINESCENCE; CRYSTALLINE; EMISSION
DOI:
10.1134/1.1913989
Web of Science ID:
ISI:000228634100024
Соавторы в МНС:
Другие поля
Поле Значение
Publisher AMER INST PHYSICS
Address CIRCULATION \& FULFILLMENT DIV, 2 HUNTINGTON QUADRANGLE, STE 1 N O 1, MELVILLE, NY 11747-4501 USA
Language English
Keywords-Plus LUMINESCENCE; CRYSTALLINE; EMISSION
Research-Areas Physics
Web-of-Science-Categories Physics, Condensed Matter
Author-Email zats@dpt.ustu.ru
ResearcherID-Numbers Zatsepin, Anatoly/L-7335-2016 Cholakh, Seif/M-8221-2016
ORCID-Numbers Zatsepin, Anatoly/0000-0001-9539-2403 Cholakh, Seif/0000-0002-9313-6614
Number-of-Cited-References 9
Usage-Count-Last-180-days 1
Usage-Count-Since-2013 11
Journal-ISO Phys. Solid State
Doc-Delivery-Number 919RA