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Unraveling the enhanced Oxygen Vacancy Formation in Complex Oxides during Annealing and Growth.


ABSTRACT: The reduction of oxides during annealing and growth in low pressure processes is a widely known problem. We hence investigate the influence of mere annealing and of growth in vacuum systems to shed light on the reasons behind the reduction of perovskites. When comparing the existing literature regarding the reduction of the perovskite model material SrTiO3 it is conspicuous that one finds different oxygen pressures required to achieve reduction for vacuum annealing and for chemically controlled reducing atmospheres. The unraveling of this discrepancy is of high interest for low pressure physical vapor depositions of thin films heterostructures to gain further understanding of the reduction of the SrTiO3. For thermal annealing, our results prove the attached measurement devices (mass spectrometer/ cold cathode gauge) to be primarily responsible for the reduction of SrTiO3 in the deposition chamber by shifting the thermodynamic equilibrium to a more reducing atmosphere. We investigated the impact of our findings on the pulsed laser deposition growth at low pressure for LaAlO3/SrTiO3. During deposition the reduction triggered by the presence of the laser plume dominates and the impact of the measurement devices plays a minor role. During post annealing a complete reoxidization of samples is inhibited by an insufficient supply of oxygen.

SUBMITTER: Hensling FV 

PROVIDER: S-EPMC5238382 | biostudies-literature | 2017 Jan

REPOSITORIES: biostudies-literature

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Unraveling the enhanced Oxygen Vacancy Formation in Complex Oxides during Annealing and Growth.

Hensling Felix V E FV   Xu Chencheng C   Gunkel Felix F   Dittmann Regina R  

Scientific reports 20170116


The reduction of oxides during annealing and growth in low pressure processes is a widely known problem. We hence investigate the influence of mere annealing and of growth in vacuum systems to shed light on the reasons behind the reduction of perovskites. When comparing the existing literature regarding the reduction of the perovskite model material SrTiO<sub>3</sub> it is conspicuous that one finds different oxygen pressures required to achieve reduction for vacuum annealing and for chemically  ...[more]

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