Dielectric Breakdown Mechanisms in High-κ Antimony Trioxide (Sb2O3)
Journal article, 2024

High-κ gate dielectrics compatible with two-dimensional (2D) materials are crucial for advanced electronics, and Sb2O3 (antimony trioxide) shows significant potential. Here, we show that the soft breakdown induces oxygen vacancies and migration of copper into Sb2O3. Hard breakdown, driven by joule heating, gives rise to a substantial temperature increase, leading to morphological transformations and oxygen redistribution. In situ transmission electron microscopy (in situ TEM) measurements correlated with device performance show the formation of nanoconducting filaments due to the increased concentration of oxygen vacancies and copper migration in connection with the soft breakdown. The hard breakdown is associated with the formation of antimony-enriched nanocrystals. These findings offer critical insights into the suitability of Sb2O3 as a high-κ gate dielectric.

gate dielectric

Sb O 2 3

in situ TEM

high-κ

molecular crystal

2D materials

Author

Alok Ranjan

Chalmers, Physics, Nano and Biophysics

Lunjie Zeng

Chalmers, Physics, Nano and Biophysics

Eva Olsson

Chalmers, Physics, Nano and Biophysics

ACS Applied Electronic Materials

26376113 (eISSN)

Vol. 6 11 8540-8548

Subject Categories

Materials Chemistry

Condensed Matter Physics

Infrastructure

Chalmers Materials Analysis Laboratory

Nanofabrication Laboratory

DOI

10.1021/acsaelm.4c01818

More information

Latest update

12/7/2024