The electrical activity of Ge dangling bonds is investigated at the interface between GeO2-passivated Ge( 1 1 1) substrate and Al2O3 grown by atomic layer deposition, by means of electrically detected magnetic resonance spectroscopy (EDMR). The Al2O3/GeO2/Ge stacked structure is promising as a mobility booster for the post-Si future electronic devices. EDMR proved to be useful in characterizing interface defects, even at the very low concentrations of state-of-the-art devices (< 10(10)cm(-2)). In particular, it is shown that capping the GeO2-passivated Ge( 1 1 1) with Al2O3 has no impact on the microstructure of the Ge dangling bond.
Paleari, S., Molle, A., Accetta, F., Lamperti, A., Cianci, E., Fanciulli, M. (2014). Electrically detected magnetic resonance study of the Ge dangling bonds at the Ge(111)/GeO2 interface after capping with Al2O3 layer. APPLIED SURFACE SCIENCE, 291, 3-5 [10.1016/j.apsusc.2013.09.121].
Electrically detected magnetic resonance study of the Ge dangling bonds at the Ge(111)/GeO2 interface after capping with Al2O3 layer
PALEARI, STEFANOPrimo
;FANCIULLI, MARCOUltimo
2014
Abstract
The electrical activity of Ge dangling bonds is investigated at the interface between GeO2-passivated Ge( 1 1 1) substrate and Al2O3 grown by atomic layer deposition, by means of electrically detected magnetic resonance spectroscopy (EDMR). The Al2O3/GeO2/Ge stacked structure is promising as a mobility booster for the post-Si future electronic devices. EDMR proved to be useful in characterizing interface defects, even at the very low concentrations of state-of-the-art devices (< 10(10)cm(-2)). In particular, it is shown that capping the GeO2-passivated Ge( 1 1 1) with Al2O3 has no impact on the microstructure of the Ge dangling bond.
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