Semiconducting materials with optical transparency are gaining increasing attention for the preparation of next-generation optical devices. In this work, Chemical Vapour Deposition of nanophasic Cu-Ti-0 and Cu-Al-O thin films is performed on glassy substrates by using copper(II) acetylacetonate hydrate [Cu(acac)2.H2O], titanium tetraisopropoxide [Ti(OiPr)4] and aluminium dimethylisopropoxide [(CH3)2AI(OiC3H7)] as Cu, Ti and Al precursors respectively, in the temperature range 215-370°C. The syntheses are carried out in a N2+O2 or N2+H2O atmosphere. The obtained coatings are characterised in detail in their composition, microstructure, optical and electrical properties. The discussion is focused on the most relevant results concerning their composition, with particular attention to Cu oxidation state as a function of experimental conditions, optical transparency and semiconductor behaviour.
Low pressure CVD of transparent Cu-Al-O and Cu-Ti-O thin films
CASELLATO, UMBERTO;GERBASI, ROSALBA;BARRECA, DAVIDE
2001
Abstract
Semiconducting materials with optical transparency are gaining increasing attention for the preparation of next-generation optical devices. In this work, Chemical Vapour Deposition of nanophasic Cu-Ti-0 and Cu-Al-O thin films is performed on glassy substrates by using copper(II) acetylacetonate hydrate [Cu(acac)2.H2O], titanium tetraisopropoxide [Ti(OiPr)4] and aluminium dimethylisopropoxide [(CH3)2AI(OiC3H7)] as Cu, Ti and Al precursors respectively, in the temperature range 215-370°C. The syntheses are carried out in a N2+O2 or N2+H2O atmosphere. The obtained coatings are characterised in detail in their composition, microstructure, optical and electrical properties. The discussion is focused on the most relevant results concerning their composition, with particular attention to Cu oxidation state as a function of experimental conditions, optical transparency and semiconductor behaviour.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
