Effect of point defects on luminescence characteristics of ZnO ceramics

P. A. Rodnyi; K. A. Chernenko; A. Zolotarjovs; L. Grigorjeva; E. I. Gorokhova; I. D. Venevtsev

doi:10.1134/S1063783416100309

Effect of point defects on luminescence characteristics of ZnO ceramics

P. A. Rodnyi
, K. A. Chernenko^*
, A. Zolotarjovs
, L. Grigorjeva
, E. I. Gorokhova
, I. D. Venevtsev

^*Corresponding author for this work

Laboratory of Optical Materials, Institute of Solid State Physics

Peter the Great St. Petersburg Polytechnic University
University of Latvia
S.I. Vavilov State Optical Institute

Research output: Contribution to journal › Article › peer-review

13 Citations (Scopus)

Abstract

Photo- and thermally stimulated luminescence of ZnO ceramics are produced by uniaxial hot pressing. The luminescence spectra of ceramics contain a wide band with a maximum at 500 nm, for which oxygen vacancies V_O are responsible, and a narrow band with a maximum at 385 nm, which is of exciton nature. It follows from luminescence excitation spectra that the exciton energy is transferred to luminescence centers in ZnO. An analysis of the thermally stimulated luminescence curves allowed detection of a set of discrete levels of point defects with activation energies of 25, 45, 510, 590 meV, and defects with continuous energy distributions in the range of 50–100 meV. The parameters of some of the detected defects are characteristic of a lithium impurity and hydrogen centers. The photoluminescence kinetics are studied in a wide temperature range.

Original language	English
Pages (from-to)	2055-2061
Number of pages	7
Journal	Physics of the Solid State
Volume	58
Issue number	10
DOIs	https://doi.org/10.1134/S1063783416100309
Publication status	Published - 1 Oct 2016

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title = "Effect of point defects on luminescence characteristics of ZnO ceramics",

abstract = "Photo- and thermally stimulated luminescence of ZnO ceramics are produced by uniaxial hot pressing. The luminescence spectra of ceramics contain a wide band with a maximum at 500 nm, for which oxygen vacancies VO are responsible, and a narrow band with a maximum at 385 nm, which is of exciton nature. It follows from luminescence excitation spectra that the exciton energy is transferred to luminescence centers in ZnO. An analysis of the thermally stimulated luminescence curves allowed detection of a set of discrete levels of point defects with activation energies of 25, 45, 510, 590 meV, and defects with continuous energy distributions in the range of 50–100 meV. The parameters of some of the detected defects are characteristic of a lithium impurity and hydrogen centers. The photoluminescence kinetics are studied in a wide temperature range.",

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TY - JOUR

T1 - Effect of point defects on luminescence characteristics of ZnO ceramics

AU - Rodnyi, P. A.

AU - Chernenko, K. A.

AU - Zolotarjovs, A.

AU - Grigorjeva, L.

AU - Gorokhova, E. I.

AU - Venevtsev, I. D.

PY - 2016/10/1

Y1 - 2016/10/1

N2 - Photo- and thermally stimulated luminescence of ZnO ceramics are produced by uniaxial hot pressing. The luminescence spectra of ceramics contain a wide band with a maximum at 500 nm, for which oxygen vacancies VO are responsible, and a narrow band with a maximum at 385 nm, which is of exciton nature. It follows from luminescence excitation spectra that the exciton energy is transferred to luminescence centers in ZnO. An analysis of the thermally stimulated luminescence curves allowed detection of a set of discrete levels of point defects with activation energies of 25, 45, 510, 590 meV, and defects with continuous energy distributions in the range of 50–100 meV. The parameters of some of the detected defects are characteristic of a lithium impurity and hydrogen centers. The photoluminescence kinetics are studied in a wide temperature range.

AB - Photo- and thermally stimulated luminescence of ZnO ceramics are produced by uniaxial hot pressing. The luminescence spectra of ceramics contain a wide band with a maximum at 500 nm, for which oxygen vacancies VO are responsible, and a narrow band with a maximum at 385 nm, which is of exciton nature. It follows from luminescence excitation spectra that the exciton energy is transferred to luminescence centers in ZnO. An analysis of the thermally stimulated luminescence curves allowed detection of a set of discrete levels of point defects with activation energies of 25, 45, 510, 590 meV, and defects with continuous energy distributions in the range of 50–100 meV. The parameters of some of the detected defects are characteristic of a lithium impurity and hydrogen centers. The photoluminescence kinetics are studied in a wide temperature range.

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DO - 10.1134/S1063783416100309

M3 - Article

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VL - 58

SP - 2055

EP - 2061

JO - Physics of the Solid State

JF - Physics of the Solid State

IS - 10

ER -

Effect of point defects on luminescence characteristics of ZnO ceramics

Abstract

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