A New Study on the Degradation Mechanism in Low-Temperature p-Channel Polycrystalline Silicon TFTs Under Dynamic Stress

Author

Toyota, Yoshiaki ; Matsumura, Mieko ; Hatano, Mutsuko ; Shiba, Takeo ; Ohkura, Makoto

Author_Institution

Hitachi Ltd, Tokyo

Volume

53

Issue

9

fYear

2006

Firstpage

2280

Lastpage

2286

Abstract

Pronounced device degradation and temperature dependence of p-channel polycrystalline silicon thin-film transistors (polysilicon TFTs) under pulse stress were investigated. This device degradation is due to the trap states produced by repetition between electron injection and hole injection. The analysis of activation energy affirms that the rapid degradation at high temperature is caused by an increase in the number of trapped holes, to which the negative-bias-temperature stress significantly contributes. The degradation is strongly dependent on the duration of hole injection and the location of the hole-injection region. To produce highly reliable TFT circuits, it is thus important to shorten the duration of hole injection and separate the region of hole injection from that of electron injection

Keywords

carrier mobility; semiconductor device reliability; thin film circuits; thin film transistors; degradation mechanism; dynamic stress; electron injection; hole injection; low-temperature p-channel polycrystalline silicon; negative-bias-temperature stress; polysilicon TFT; pulse stress; temperature dependence; trap states; trapped holes; Charge carrier processes; Circuits; Degradation; Electron traps; Plasma temperature; Silicon; Spontaneous emission; Stress; Temperature dependence; Thin film transistors; Electron injection; hole injection; negative-bias-temperature (NBT) stress; p-channel thin-film transistors (TFTs); pulse stress; recombination; temperature dependence;

fLanguage

English

Journal_Title

Electron Devices, IEEE Transactions on

Publisher

ieee

ISSN

0018-9383

Type

jour

DOI

10.1109/TED.2006.879680

Filename

1677865