In this paper, plasma-enhanced chemical vapor deposited SiO layers capped by an ultra-thin plasma-assisted atomic layer deposited AlO over-layer are analyzed by means of ellipsometric porosimetry (EP). In a very recent contribution, we have shown that the combination of the two layers provided excellent intrinsic moisture permeation barrier performance down to the 10-10 g · day · m regime. The present paper therefore addresses the microstructural changes which the SiO layers undergo upon AlO deposition, as monitored by ellipsometric porosimetry (EP). It was found that the AlO deposition primarily affects the relative content of open pores with d > 0.3 nm (water as probe) and d > 0.42 nm (ethanol as probe) from 5.35 to 2.81% and from 2.50 to 0.32%, respectively.
On the synergistic effect of inorganic/inorganic barrier layers: An ellipsometric porosimetry investigation
Perrotta Alberto;
2017
Abstract
In this paper, plasma-enhanced chemical vapor deposited SiO layers capped by an ultra-thin plasma-assisted atomic layer deposited AlO over-layer are analyzed by means of ellipsometric porosimetry (EP). In a very recent contribution, we have shown that the combination of the two layers provided excellent intrinsic moisture permeation barrier performance down to the 10-10 g · day · m regime. The present paper therefore addresses the microstructural changes which the SiO layers undergo upon AlO deposition, as monitored by ellipsometric porosimetry (EP). It was found that the AlO deposition primarily affects the relative content of open pores with d > 0.3 nm (water as probe) and d > 0.42 nm (ethanol as probe) from 5.35 to 2.81% and from 2.50 to 0.32%, respectively.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
