Title :
High-Performance Thin-Film Transistors in Disordered and Poor-Quality Semiconductors
Author :
Shannon, John M. ; Balon, Frantisek
Author_Institution :
Adv. Technol. Inst., Surrey Univ., Guildford
Abstract :
In general, the range of applications for large-area electronics or macroelectronics is limited by the quality of the semiconductor used to make the electronic devices and circuits. Here, we address the question of how to make high-performance transistors using semiconductors that are defective, have low carrier mobilities, and are unstable. It is proposed that we need to engineer and operate a transistor that minimizes the excess carrier concentration throughout the device combined with high internal fields over small dimensions. Compared with the field-effect transistor, a source-gated transistor more nearly meets these requirements. Using the unstable and defective semiconductor, hydrogenated amorphous silicon, it is shown that high-performance thin-film transistors can indeed be made using the source-gated concept
Keywords :
amorphous semiconductors; carrier density; field effect transistors; silicon; thin film transistors; Schottky barrier; Si; device modeling; disordered semiconductor; excess carrier concentration; field-effect transistor; high-performance transistors; low carrier mobilities; poor-quality semiconductors; source-gated transistor; thin-film transistors; Amorphous materials; Amorphous silicon; Bonding; Electronic circuits; FETs; Photonic band gap; Plastics; Polymers; Semiconductor materials; Thin film transistors; Device modeling; Schottky barrier; disordered semiconductors; field-effect transistor (FET); polymers; source-gated transistor (SGT); thin-film transistor (TFT);
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2006.888753
