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Oxygen Vacancies in Zirconium Oxide as the Blue Luminescence Centers and Traps Responsible for Charge Transport

28 Pages Posted: 5 May 2020 Publication Status: Accepted

See all articles by Damir R. Islamov

Damir R. Islamov

Russian Academy of Sciences (RAS) - Rzhanov Institute of Semiconductor Physics

Vladimir A. Gritsenko

Russian Academy of Sciences (RAS) - Rzhanov Institute of Semiconductor Physics

Timofey V. Perevalov

Russian Academy of Sciences (RAS) - Rzhanov Institute of Semiconductor Physics

Vladimir Sh. Aliev

Russian Academy of Sciences (RAS) - Rzhanov Institute of Semiconductor Physics

Alexander P. Yelisseyev

Russian Academy of Sciences (RAS) - V.S. Sobolev Institute of Geology and Mineralogy

Vladimir A. Pustovarov

Ural Federal University - Experimental Physics Department

Vladimir A. Nadolinny

Russian Academy of Sciences (RAS) - Nikolaev Institute of Inorganic Chemistry

Elena E. Lomonova

Prokhorov Institute of General Physics RAS

Albert Chin

National Chiao Tung University

Abstract

The origin of luminescence centres and traps of charge carriers in ZrO2 was studied using Raman scattering, luminescence spectroscopy, charge transport and quantum-chemical calculation. After the X-ray irradiation of the ZrO2 film, the EPR spectra from an interstitial oxygen and a negatively charged oxygen vacancy are observed. The 2.7 eV luminescence band and 5.2 eV absorption/luminescence excitation band are associated with an oxygen vacancy. Half of the Stokes shift in blue photoluminescence spectra is equal to the trap thermal activation energy 1.25 eV estimated from the charge transport experiment. Within quantum-chemical simulations and experiments on the extraction of minority carriers from silicon substrates, it was demonstrated that both electrons and holes can be trapped on oxygen vacancies in ZrO2. Hence, oxygen vacancies are supposed to operate as traps responsible for the blue luminescence band and charge transport in ZrO2.

Keywords: zirconium oxide, defects, oxygen vacancy, luminescence, charge transport

Suggested Citation

Islamov, Damir R. and Gritsenko, Vladimir A. and Perevalov, Timofey V. and Aliev, Vladimir Sh. and Yelisseyev, Alexander P. and Pustovarov, Vladimir A. and Nadolinny, Vladimir A. and Lomonova, Elena E. and Chin, Albert, Oxygen Vacancies in Zirconium Oxide as the Blue Luminescence Centers and Traps Responsible for Charge Transport. Available at SSRN: https://ssrn.com/abstract=3582138 or http://dx.doi.org/10.2139/ssrn.3582138

Damir R. Islamov (Contact Author)

Russian Academy of Sciences (RAS) - Rzhanov Institute of Semiconductor Physics ( email )

Novosibirsk, 630090
Russia

Vladimir A. Gritsenko

Russian Academy of Sciences (RAS) - Rzhanov Institute of Semiconductor Physics

Novosibirsk, 630090
Russia

Timofey V. Perevalov

Russian Academy of Sciences (RAS) - Rzhanov Institute of Semiconductor Physics

Novosibirsk, 630090
Russia

Vladimir Sh. Aliev

Russian Academy of Sciences (RAS) - Rzhanov Institute of Semiconductor Physics

Novosibirsk, 630090
Russia

Alexander P. Yelisseyev

Russian Academy of Sciences (RAS) - V.S. Sobolev Institute of Geology and Mineralogy

Russia

Vladimir A. Pustovarov

Ural Federal University - Experimental Physics Department

19 Mira Street
Yekaterinburg, 620002
Russia

Vladimir A. Nadolinny

Russian Academy of Sciences (RAS) - Nikolaev Institute of Inorganic Chemistry

Russia

Elena E. Lomonova

Prokhorov Institute of General Physics RAS

8 Vavilov Street
Moscow
Russia

Albert Chin

National Chiao Tung University

No. 1001, Daxue Rd, East District
Hsinchu, 300
Taiwan

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