Title :
Performance and reliability of low-temperature polysilicon TFT with a novel stack gate dielectric and stack optimization using PECVD nitrous oxide plasma
Author :
Chang, Kow-Ming ; Yang, Wen-Chih ; Tsai, Chiu-Pao
Author_Institution :
Dept. of Electron. Eng., Nat. Chiao-Tung Univ., Taiwan, Taiwan
Abstract :
This paper proposes a novel tetraethylorthosilicate (TEOS)/oxynitride stack gate dielectric for low-temperature poly-Si thin-film transistors, composed of a plasma-enhanced chemical vapor deposition (PECVD) thick TEOS oxide/ultrathin oxynitride grown by PECVD N2O plasma. The novel stack gate dielectric exhibits a very high electrical breakdown field of 8.5 MV/cm, which is approximately 3 MV/cm higher than traditional PECVD TEOS oxide. The novel stack oxide also has better interface quality, lower bulk-trap density, and higher long-term reliability than PECVD TEOS dielectrics. These improvements are attributed to the formation of strong Si≡N bonds of high quality ultra-thin oxynitride grown by PECVD N2O plasma, and the reduction in the trap density at the oxynitride/poly-Si interface.
Keywords :
chemical vapour deposition; dielectric properties; elemental semiconductors; interface phenomena; leakage currents; plasma materials processing; semiconductor device measurement; semiconductor device reliability; silicon; thin film transistors; PECVD nitrous oxide plasma; Si-SiON; Siequiv bonds; TFT performance; TFT reliability; bulk-trap density; electrical breakdown field; interface quality; low-temperature polysilicon TFT; oxide-ultrathin oxynitride; oxynitride-polysilicon interface; plasma-enhanced chemical vapor deposition; stack optimization; tetraethylorthosilicate-oxynitride stack gate dielectric; trap density; ultra-thin oxynitride; Circuits; Dielectrics; Electric breakdown; Oxidation; Plasma applications; Plasma chemistry; Plasma density; Plasma properties; Plasma temperature; Thin film transistors;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2003.820791
