Optimizing surface treatment for Nb-doped SrTiO3 substrates: effects on structural and chemical properties

Optimizing surface treatment for Nb-doped SrTiO3 substrates: effects on structural and chemical properties

The use of SrTiO 3 substrates with either TiO 2 - or SrO-terminated surfaces is essential for growing high-quality epitaxial perovskite oxide thin films. Adding niobium to SrTiO 3 introduces novel functionalities and imparts alterations to the metallic and structural characteristics. This study thor...

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Bibliographic Details
Published in:Journal of the Korean Physical Society Vol. 85; no. 2; pp. 183 - 191
Main Authors: Son, Minjae, Sualiheen, Karishma, Choi, Sangjin, Jeong, Seung Gyo, Bae, Jong-Seong, Eom, Seungyong, Kim, Do Hyung, Dho, Joonghoe, Jalan, Bharat, Lee, Dooyong, Kang, Kyeong Tae
Format: Journal Article
Language:English
Published: Seoul The Korean Physical Society 01-07-2024
Springer Nature B.V
Subjects:
Annealing
Chemical etching
Chemical properties
Chemical reactions
Electron diffraction
Epitaxial growth
High energy electrons
Mathematical and Computational Physics
Niobium
Optimization
Original Paper - Condensed Matter
Particle and Nuclear Physics
Perovskites
Photoelectrons
Physics
Physics and Astronomy
Strontium titanates
Substrates
Surface treatment
Theoretical
Thermodynamic properties
Thin films
Titanium dioxide
X ray photoelectron spectroscopy
Single-termination
Nb-doped SrTiO
Chemical etching
Substrate treatment
Thermal treatment
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Summary:The use of SrTiO 3 substrates with either TiO 2 - or SrO-terminated surfaces is essential for growing high-quality epitaxial perovskite oxide thin films. Adding niobium to SrTiO 3 introduces novel functionalities and imparts alterations to the metallic and structural characteristics. This study thoroughly investigates the physical and chemical processes involved in the chemical etching and annealing processes. This is to achieve an atomically flat, single-terminated surface of (001)-oriented Nb-doped SrTiO 3 (Nb:STO) surfaces and to optimize their performance. Atomic force microscopy (AFM) identified the most optimal treatment regimen, pinpointing annealing at 950 °C for a duration of 6 h, coupled with a 90-s etching procedure, which achieves a well-defined step terrace structure of the substrate. Additionally, angle-resolved X-ray photoelectron spectroscopy (AR-XPS) has revealed pronounced shifts in the predominant chemical component within the near-surface region due to changes in thermal parameters, even under consistent temperatures and durations. Reflection high-energy electron diffraction (RHEED) further confirms the creation of a single-terminated surface with the specified annealing conditions. This research provides valuable insights into the surface treatment processes for Nb:STO substrates and their influence on substrates’ structural and chemical properties.
ISSN:0374-4884
1976-8524
DOI:10.1007/s40042-024-01104-9