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- Title
Simulation Study of Crystalline Al 2 O 3 Thin Films Prepared at Low Temperatures: Effect of Deposition Temperature and Biasing Voltage.
- Authors
Jiang, Wei; Ju, Jianhang; Sun, Yuanliang; Weng, Ling; Wang, Zhiyuan; Wang, Xiaofeng; Liu, Jinna; Wang, Enhao
- Abstract
In this paper, classical molecular dynamics simulations were used to explore the impact of deposition temperature and bias voltage on the growth of Al2O3 thin films through magnetron sputtering. Ion energy distributions were derived from plasma mass spectrometer measurements. The fluxes of deposited particles (Ar+, Al+, and O−) were categorized into low, medium, and high energies, and the results show that the films are dominated by amorphous Al2O3 at low incident energies without applying bias. As the deposition temperature increased, the crystallinity of the films also increased, with the crystals predominantly consisting of γ-Al2O3. The crystal content of the deposited films increased when biased with −20 V compared to when no bias was applied. Crystalline films were successfully obtained at a deposition temperature of 773 K with a −20 V bias. When biased with −40 V, crystals could be obtained at a lower deposition temperature of 573 K. Increasing the bias enables the particles to have higher energy to overcome the nucleation barrier of the crystallization process, leading to a greater degree of film crystallization. At this stage, the average bond length between Al-O is measured to be approximately 1.89 Å to 1.91 Å, closely resembling that of the crystal.
- Subjects
THIN films; ALUMINUM oxide; TEMPERATURE effect; ION energy; MOLECULAR dynamics; MAGNETRON sputtering
- Publication
Metals (2075-4701), 2024, Vol 14, Issue 8, p875
- ISSN
2075-4701
- Publication type
Article
- DOI
10.3390/met14080875