Title :
An amorphous silicon thin-film transistor with fully self-aligned top gate structure
Author :
Powell, M.J. ; Glasse, C. ; Green, P.W. ; French, I.D. ; Stemp, I.J.
Author_Institution :
Philips Res. Lab., Redhill, UK
fDate :
3/1/2000 12:00:00 AM
Abstract :
We have developed a novel fully self-aligned top gate amorphous silicon thin-film transistor, which shows excellent transistor characteristics. Self-alignment is achieved by patterning the gate electrode and then etching the silicon nitride gate insulator, followed by silicidation and ion implantation of the exposed a-Si in the contact regions. We obtain a long channel saturated mobility of 0.9 cm2 V/sup -1/ s/sup -1/, while for channel lengths of 6 μm, we obtain an effective mobility of 0.6 cm2 V/sup -1/ s/sup -1/, in the saturated region and 0.5 cm2 V/sup -1/ s/sup -1/, in the linear region. This high level of performance, together with the negligible parasitic capacitance of the self-aligned structure, makes this transistor suitable for new demanding applications in active matrix liquid crystal displays and large area X-ray image sensors.
Keywords :
X-ray imaging; amorphous semiconductors; carrier mobility; elemental semiconductors; etching; image sensors; ion implantation; liquid crystal displays; semiconductor device metallisation; silicon; thin film transistors; 6 micron; Si; active matrix liquid crystal displays; channel lengths; channel saturated mobility; contact regions; etching; fully self-aligned top gate structure; gate electrode; ion implantation; large area X-ray image sensors; parasitic capacitance; saturated region; silicidation; thin-film transistor; transistor characteristics; Active matrix liquid crystal displays; Amorphous silicon; Electrodes; Etching; Insulation; Ion implantation; Parasitic capacitance; Silicidation; Thin film transistors; X-ray imaging;
Journal_Title :
Electron Device Letters, IEEE
