A thin film of polymethylmetacrylate sPMMAd acting as a buffer layer has been employed in order to fabricate high-quality pentacene thin-film transistors sTFTsd, both in bottom contact and top contact configuration. A PMMA buffer layer allows to reduce the interaction between a p-conjugated system of pentacene and the metal or dielectric substrate. We show that a thin PMMA buffer layer improves crystal quality along the metal contacts' boundaries, while still allowing good ohmic contact. Pentacene TFTs, including a PMMA buffer layer, show very high field-effect mobility, umFE=0.65 and 1.4 cm2 /V s, for bottom and top contact configuration, respectively, and remarkable steep subthreshold region.
High field effect mobility Pentacene Thin Film Transistors with Polymethylmetacrylate buffer layer
L Mariucci;G Fortunato
2005
Abstract
A thin film of polymethylmetacrylate sPMMAd acting as a buffer layer has been employed in order to fabricate high-quality pentacene thin-film transistors sTFTsd, both in bottom contact and top contact configuration. A PMMA buffer layer allows to reduce the interaction between a p-conjugated system of pentacene and the metal or dielectric substrate. We show that a thin PMMA buffer layer improves crystal quality along the metal contacts' boundaries, while still allowing good ohmic contact. Pentacene TFTs, including a PMMA buffer layer, show very high field-effect mobility, umFE=0.65 and 1.4 cm2 /V s, for bottom and top contact configuration, respectively, and remarkable steep subthreshold region.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
