Effect of UV Irradiation on Threshold Voltage and Subthreshold Slope in Pentacene TFT

Abstract: We report the influence of UV irradiation on the electrical properties of pentacene thin-film transistors ͑TFTs͒ with SiO 2 gate insulator. The threshold voltage ͑V th ͒ shifted from −9.0 to −5.1 V and subthreshold slope reduced from 3.6 to 1.1 V/dec by the treatment before pentacene deposition. The UV treatment reduced the surface energy by removing the hydroxyl groups at the SiO 2 surface. Thus, molecular packing of pentacene on the UV-treated SiO 2 was improved, lowering the ͉V th ͉ value via the reduction … Show more

“…On the basis of this study, it is definitely found that hydroxyl groups act as charge carrier trapping sites. Considering some previous works about the interfacial trap density on various dielectric layers such as SiO 2 , and self‐assembled monolayer deposited on SiO 2 , and Al 2 O 3 , our calculated interfacial trap density is in a reasonable range . Compared with the hydroxyl group‐existing polymeric buffer layer, it is found that the hydroxyl group‐free polymeric buffer layer is much more efficient in minimizing the N trap .…”

“…Considering that the magnitude of SS represents the quality about how soon the OFETs turn from off state to on state, a lower value is desirable for fast switching. The SS is determined from the following equation in the subthreshold regime at the transfer characteristic curves: …”

Engineered interface using a hydroxyl group‐free polymeric buffer layer onto a TiO₂ nanocomposite film for improving the electrical properties in a low‐voltage operated organic transistor

“…On the basis of this study, it is definitely found that hydroxyl groups act as charge carrier trapping sites. Considering some previous works about the interfacial trap density on various dielectric layers such as SiO 2 , and self‐assembled monolayer deposited on SiO 2 , and Al 2 O 3 , our calculated interfacial trap density is in a reasonable range . Compared with the hydroxyl group‐existing polymeric buffer layer, it is found that the hydroxyl group‐free polymeric buffer layer is much more efficient in minimizing the N trap .…”

“…Considering that the magnitude of SS represents the quality about how soon the OFETs turn from off state to on state, a lower value is desirable for fast switching. The SS is determined from the following equation in the subthreshold regime at the transfer characteristic curves: …”

Engineered interface using a hydroxyl group‐free polymeric buffer layer onto a TiO₂ nanocomposite film for improving the electrical properties in a low‐voltage operated organic transistor

Threshold voltage shifting for memory and tuning in printed transistor circuits

Monolayer field effect transistor as a probe of electronic defects in organic semiconducting layers at organic/inorganic hetero-junction interface