Aluminum oxide films were grown in a hot-wall low-pressure metal organic chemical vapor deposition system using aluminum dimethylisopropoxide as precursor. A kinetic model was developed which includes an overall heterogeneous reaction with apparent activation energy of 130 kJ/mol. The most promising running conditions were identified at a reaction temperature of 560°C corresponding to a uniform growth rate of about 30 nm/min. Aluminum oxide films resulted amorphous, transparent, stoichiometric, and carbon-free.
Kinetic growth of Al2O3 thin films using aluminum dimethylisopropoxide as precursor
GERBASI, ROSALBA;BARRECA, DAVIDE
2000
Abstract
Aluminum oxide films were grown in a hot-wall low-pressure metal organic chemical vapor deposition system using aluminum dimethylisopropoxide as precursor. A kinetic model was developed which includes an overall heterogeneous reaction with apparent activation energy of 130 kJ/mol. The most promising running conditions were identified at a reaction temperature of 560°C corresponding to a uniform growth rate of about 30 nm/min. Aluminum oxide films resulted amorphous, transparent, stoichiometric, and carbon-free.File in questo prodotto:
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