High-Performance, Stable Organic Thin-Film Field-Effect Transistors Based on Bis-5‘-alkylthiophen-2‘-yl-2,6-anthracene Semiconductors
Citations Over TimeTop 1% of 2005 papers
Abstract
The development of new organic semiconductors with improved electrical performance and enhanced environmental stability is the focus of considerable research activity. This communication presents the design, synthesis, and device stability data for novel bis-5'-alkylthiophen-2'yl-2,6-anthracene organic semiconductors. When incorporated into thin-film field-effect transistors, mobilities as high as 0.5 cm2/Vs and on/off current ratios greater than 107 are observed. We have investigated device stability in terms of both shelf life and operating lifetime. Devices incorporating the reported semiconductors display an average field-effect mobility of 0.4 cm2/Vs for DHTAnt and an on/off current ratio of 106 even after 15 months of storage. Furthermore, there is no decrease in performance during continuous operation of the devices over several thousand cycles.
Related Papers
- → Novel p- and n-Type Organic Semiconductors with an Anthracene Unit(2005)160 cited
- → Charge Transport in Organic Transistors Accounting for a Wide Distribution of Carrier Energies—Part II: TFT Modeling(2012)49 cited
- → Insight into in-plane isotropic transport in anthracene-based organic semiconductors(2019)14 cited
- An enhanced model for organic transistors compared to existing models in use(2008)
- The Investigation and Application of Pentacene TFT(2004)