We studied transfer characteristics of pentacene thin film transistors, fabricated by using polymethylmetacrylate (PMMA) buffer layer, in order to evaluate the parasitic series resistance in devices with different active layer thickness (10-80 nm) and contact architectures (top and bottom contacts). For bottom contact TFTs, the highest series resistance (1.7 · 104 X cm) was found for the thinnest pentacene films, probably related to step coverage problems of the thin pentacene film over the gold contacts. In contrast, for the top contact TFTs, the 10 nm pentacene films had the lowest resistance (1.8 · 103 X cm) and the resistance increases to 8 · 104 X cm for the thicker films. The results can be related to the effect of the series resistance induced by the vertical transport through the pentacene film.
Effect of active layer thickness on electrical characteristics of pentacene TFTs with PMMA buffer layer
L Mariucci;D Simeone;L Maiolo;A Pecora;G Fortunato;
2008
Abstract
We studied transfer characteristics of pentacene thin film transistors, fabricated by using polymethylmetacrylate (PMMA) buffer layer, in order to evaluate the parasitic series resistance in devices with different active layer thickness (10-80 nm) and contact architectures (top and bottom contacts). For bottom contact TFTs, the highest series resistance (1.7 · 104 X cm) was found for the thinnest pentacene films, probably related to step coverage problems of the thin pentacene film over the gold contacts. In contrast, for the top contact TFTs, the 10 nm pentacene films had the lowest resistance (1.8 · 103 X cm) and the resistance increases to 8 · 104 X cm for the thicker films. The results can be related to the effect of the series resistance induced by the vertical transport through the pentacene film.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
