We show that pentacene field-effect transistors, fabricated by supersonic molecular beams, have a performance strongly depending on the precursor's kinetic energy (KE). The major role played by KE is in achieving highly ordered and flat films. In the range KE3.5-6.5 eV, the organic field effect transistor linear mobility increases of a factor 5. The highest value (1.0 cm2 V-1 s-1) corresponds to very uniform and flat films (layer-by-layer type growth). The temperature dependence of mobility for films grown at KE>6 eV recalls that of single crystals (bandlike) and shows an opposite trend for films grown at KE5.5 eV.
Controlling Field Effect Mobility in Pentacene Based Transistors by Supersonic Molecular Beam Deposition
T Toccoli;S Iannotta;L Mariucci;G Fortunato
2006
Abstract
We show that pentacene field-effect transistors, fabricated by supersonic molecular beams, have a performance strongly depending on the precursor's kinetic energy (KE). The major role played by KE is in achieving highly ordered and flat films. In the range KE3.5-6.5 eV, the organic field effect transistor linear mobility increases of a factor 5. The highest value (1.0 cm2 V-1 s-1) corresponds to very uniform and flat films (layer-by-layer type growth). The temperature dependence of mobility for films grown at KE>6 eV recalls that of single crystals (bandlike) and shows an opposite trend for films grown at KE5.5 eV.File in questo prodotto:
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