Title :
Poly-Si TFT fabricated by laser-induced in-situ fluorine passivation and laser doping
Author :
Cheon-Hong Kim ; Sang-Hoon Jung ; Juhn-Suk Yoo ; Min-Kuo Han
Author_Institution :
Sch. of Electr. Eng., Seoul Nat. Univ., South Korea
Abstract :
A new poly-Si TFT has been fabricated by employing laser-induced in-situ fluorine passivation and a laser-doping method. With only one excimer laser annealing, we have successfully fabricated the device using one step to crystallize, passivate and dope simultaneously. Although no additional plasma post-passivation was performed, the on-state and the off-state leakage properties of TFTs with fluorine passivation were improved compared with those without fluorine passivation. The device with in-situ fluorine passivation has the maximum transconductance of 13.3 μA/V for a C2F/sub 6/ flow rate of 100 sccm, whilst that for a device without fluorine passivation is 8.4 μA/V. The device reliability under electrical stress was remarkably improved in the in-situ fluorine-passivated devices due to the fluorine passivation of trap states in the poly-Si channel and at the SiO2/poly-Si interface.
Keywords :
elemental semiconductors; fluorine; laser beam annealing; laser materials processing; leakage currents; passivation; semiconductor device reliability; semiconductor doping; silicon; thin film transistors; C/sub 2/F/sub 6/ flow rate; Si; SiO/sub 2/-Si; SiO/sub 2//poly-Si interface; device reliability; electrical stress; excimer laser annealing; fluorine passivation effects; laser doping; laser-induced in-situ fluorine passivation; maximum transconductance; off-state leakage properties; on-state leakage properties; poly-Si TFT; trap states; Active matrix liquid crystal displays; Annealing; Atomic beams; Atomic layer deposition; Crystallization; Doping; Ion implantation; Passivation; Plasma properties; Thin film transistors;
Journal_Title :
Electron Device Letters, IEEE
