液晶与显示
液晶與顯示
액정여현시
CHINESE JOURNAL OF LIQUID CRYSTALS AND DISPLAYS
2009年
6期
812-817
,共6页
赵淑云%孟志国%吴春亚%王文%郭海成
趙淑雲%孟誌國%吳春亞%王文%郭海成
조숙운%맹지국%오춘아%왕문%곽해성
碟型晶畴多晶硅薄膜%多晶硅TFTs%TFT稳定性
碟型晶疇多晶硅薄膜%多晶硅TFTs%TFT穩定性
설형정주다정규박막%다정규TFTs%TFT은정성
disk-like domain SMIC poly-Si%poly-Si TFTs%TFT reliability
以非晶硅为晶化前驱物,采用镍盐溶液浸沾的方法可以得到超大尺寸碟型晶畴结构的低温多晶硅薄膜.所得多晶硅薄膜的平均晶畴尺寸大约为50 μm,空穴的最高霍尔迁移率为30.8 cm~2/V·s,电子的最高霍尔迁移率为45.6 cm~2/V·s.用这种多晶硅薄膜为有源层,所得多晶硅TFT的场效应迁移率典型值为70~80 cm~2 /V·s,亚阈值斜摆幅为1.5 V/decade,开关电流比为1.01×10~7,开启电压为-8.3 V.另外,P型的TFT在高栅偏压和热载流子偏压下具有良好的器件稳定性.
以非晶硅為晶化前驅物,採用鎳鹽溶液浸霑的方法可以得到超大呎吋碟型晶疇結構的低溫多晶硅薄膜.所得多晶硅薄膜的平均晶疇呎吋大約為50 μm,空穴的最高霍爾遷移率為30.8 cm~2/V·s,電子的最高霍爾遷移率為45.6 cm~2/V·s.用這種多晶硅薄膜為有源層,所得多晶硅TFT的場效應遷移率典型值為70~80 cm~2 /V·s,亞閾值斜襬幅為1.5 V/decade,開關電流比為1.01×10~7,開啟電壓為-8.3 V.另外,P型的TFT在高柵偏壓和熱載流子偏壓下具有良好的器件穩定性.
이비정규위정화전구물,채용얼염용액침첨적방법가이득도초대척촌설형정주결구적저온다정규박막.소득다정규박막적평균정주척촌대약위50 μm,공혈적최고곽이천이솔위30.8 cm~2/V·s,전자적최고곽이천이솔위45.6 cm~2/V·s.용저충다정규박막위유원층,소득다정규TFT적장효응천이솔전형치위70~80 cm~2 /V·s,아역치사파폭위1.5 V/decade,개관전류비위1.01×10~7,개계전압위-8.3 V.령외,P형적TFT재고책편압화열재류자편압하구유량호적기건은정성.
Polycrystalline silicon (poly-Si) films consisting of super-large disk-like domains were obtained with solution-based metal-induced crystallization (SMIC) of amorphous silicon. The prepared disk-like domain SMIC poly-Si has an average domain size of up to 50 μm, highest hole Hall mobility of 30.8 cm~2/V·s, and highest electron Hall mobility of 45.6 cm~2/V·s. P-type poly-Si TFT based on disk-like domain SMIC poly-Si has high field effect mobility of 70~80 cm~2/V~(-1)·s~(-1), sub-threshold slope of 1.5 V/decade, on/off state current ratio of 1.01×10~7 and threshold voltage of -8.3 V. Also, P-type disk-like domain SMIC poly-Si TFTs exhibited excellent reliability under high gate bias-stress and hot carrier bias-stress.
