Nanostructural depth-profile and field-effect properties of poly(alkoxyphenylene-thienylene) Langmuir–Schäfer thin-films
- Authors: M CRISTINA TANESE; PIGNATARO B; GIANLUCA M FARINOLA; DONATO COLANGIULI; LUDOVICO VALLI; LIVIA GIOTTA; SABRINA CONOCI; FRANCESCO MARINELLI; ELIANA IEVA; FRANCESCO BABUDRI; FRANCESCO NASO; LUIGIA SABBATINI; P GIORGIO ZAMBONIN AND LUISA TORSI
- Publication year: 2008
- Type: Articolo in rivista (Articolo in rivista)
- Key words: transistors, thin films, nanotechnology, Langmuir-Shaefer
- OA Link: http://hdl.handle.net/10447/49714
Abstract
The correlations between morphological features and field-effect properties of poly(alkoxyphenylene-thiophene) thin Langmuir–Schäfer film deposited on differently terminated gate dielectric surfaces, namely bare and methyl functionalized thermal silicon dioxide (t-SiO2), have been systematically studied. The film morphology has been investigated at different film thickness by Scanning Force Microscopy. Films thicker than a few layers show comparable morphology on both dielectric surfaces while differences are seen for the ultra-thin polymer deposit in close proximity to the substrate. Such deposit is notably more heterogeneous on bare t-SiO2, while a more compact and uniform nanogranular structure is observed on the silylated t-SiO2. As to the field-effect properties, the methyl-terminated gate dielectric surface leads to a two order of magnitude mobility enhancement along with a field-effect thickness independent conductance.