Title :
A novel thin-film transistor with self-aligned field induced drain
Author :
Horng-Chih Lin ; Yu, C.M. ; Lin, C.Y. ; Yeh, K.-L. ; Huang, Tiao-Yuan ; Lei, Tan-Fu
Author_Institution :
Nat. Nano Device Labs., Hsinchu, Taiwan
Abstract :
In this letter, a novel thin-film transistor with a self-aligned field-induced-drain (SAFID) structure is reported for the first time. The new SAFID TFT features a self-aligned sidewall spacer located on top of the drain offset region to set its effective length, and a bottom gate (or field plate) situated under the drain offset region to electrically induce the field-induced-drain (FID). So, unlike the conventional off-set-gated TFTs with their effective FID length set by two separate photolithographic masking layers, the new SAFID is totally immune to photomasking misalignment errors, while enjoying the low off-state leakage as well as high turn-on characteristics inherent in the FID structure. Polycrystalline silicon TFTs with the new SAFID structure have been successfully fabricated with significant improvement in the on/off current ratio.
Keywords :
leakage currents; thin film transistors; bottom gate; effective length; field plate; high turn-on characteristics; low off-state leakage; on/off current ratio; photolithographic masking layers; photomasking misalignment errors; self-aligned field induced drain; self-aligned sidewall spacer; thin-film transistor; Active matrix liquid crystal displays; Amorphous silicon; Availability; Implants; Laboratories; Leakage current; Liquid crystal displays; Substrates; Thin film transistors; Voltage;
Journal_Title :
Electron Device Letters, IEEE
