Author:
Maria J-P.,Wickaksana D.,Parrette J.,Kingon A. I.
Abstract
HfO2–SiO2 and La2O3–SiO2 amorphous alloys were prepared, and their crystallization behavior was studied. The results suggest that higher permittivities can be achieved in the La-containing system without devitrification. The crystallization mechanisms between systems are distinctly different, yet observations are consistent with bulk material. Hf-containing materials tend toward phase separation, while La-containing materials tend toward silicate formation. For Hf-containing films, negligible thickness or time dependence was observed. In La-containing films, rapid thermal anneals could improve crystallization resistance, and thickness effects related to interface reactions were observed. These behaviors are discussed in the context of phase diagrams and metastable immiscibility.
Publisher
Springer Science and Business Media LLC
Subject
Mechanical Engineering,Mechanics of Materials,Condensed Matter Physics,General Materials Science
Reference51 articles.
1. Maria J-P. and Wicaksana D. , in These results correspond to measurements taken on (HfO2)1-x-(SiO2)x metal-insulator-metal structures. Films were fabricated in identical fashion as those for crystallization measurements with the exception that a Pt bottom electrode was used to facilitate accurate dielectric analysis. (2001).
2. Materials characterization of ZrO2–SiO2 and HfO2–SiO2 binary oxides deposited by chemical solution deposition
3. Powder Diffraction File: Inorganic Phases, Card #8-342 (HfO2)(tet), Vol. 8 (Swarthmore, PA, 1999).
4. High temperature stability in lanthanum and zirconia-based gate dielectrics
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