March 3, 2026Open Access

Controllable fabrication of highly crystalline and atomically flat phase-change heterostructure thin films

Key Points

High-quality growth of Sb2Te3 films was observed using Al2O3 substrates and W buffer layers.
The introduction of specific buffer layers like W significantly enhances the crystalline properties.
Film growth techniques were systematically compared across various substrates including Si and SiO2.
This approach could lead to improved performance in phase-change materials with applications in data storage.

Abstract

To optimize the crystalline quality of phase-change heterostructure (PCH) thin films and investigate the effects of different substrates and buffer layers on the growth of Sb2Te3 films, we systematically compared the crystalline properties of Sb2Te3 films deposited on Si, SiO2, and Al2O3 substrates. It was found that introducing W or Ti as a buffer layer significantly influences film growth. In particular, the combination of an Al2O3 substrate with W buffer layer approximately 10 nm-thick was shown to markedly promote the high-quality growth of Sb2Te3 films while preserving their orientation consistency. This approach enabled the successful fabrication of PCH films with near-atomic-level flatness. This study provides important experimental evidence and theoretical support for the preparation of high-performance PCH materials.

Bookmark

View Full Paper

Cite This Study

Ding et al. (Mon,) studied this question.

synapsesocial.com/papers/69a75a1fc6e9836116a1fac6 https://doi.org/https://doi.org/10.3724/sp.j.1249.2026.01001

Bookmark

View Full Paper