液晶与显示, 2019, 34 (8): 755, 网络出版: 2019-10-12
激光化学气相沉积法在TFT-LCD电路缺陷维修中的应用
Application of laser chemical vapor deposition in repairing TFT-LCD circuit defects
激光化学气相沉积法 缺陷维修 电阻率 TFT-LCD TFT-LCD laser chemical vapor deposition defect repair W(CO)6 W(CO)6 electrical resistivity
摘要
为了维修TFT-LCD电路缺陷, 利用激光化学气相沉积法(LCVD)沉积钨薄膜, 讨论成膜参数对基底损伤、钨薄膜电阻率的影响。在空气氛围下, 波长为351 nm的脉冲激光诱导W(CO)6裂解成膜, 通过聚焦离子束-扫描电子显微镜(FIB-SEM)观察薄膜横截面研究成膜参数对基底损伤的影响, 再用高精度的电参数测试仪(EPM)测试不同参数下钨薄膜电阻。控制变量法表明, 激光功率或激光束光斑尺寸越大, 薄膜基底损伤越大, 但电阻率越小, 且不沉积薄膜时高功率激光辐射也不会造成基底损伤; 激光辐射速度越大, 基底损伤越小, 但电阻率越大。通过平衡工艺参数, 得到了电阻率为0.96 Ω/μm、对基底无损伤的钨薄膜, 成分分析表明此时W(CO)6已经完全裂解。
Abstract
The deposition of tungsten film through laser chemical vapor deposition (LCVD) was investigated for the repair of circuit defects of TFT-LCD panels, simultaneously the film-forming process parameters influencing the damage of thin film transistor substrate, electrical resistance of tungsten film were discussed. Firstly, the pulsed laser irradiation at 351 nm was used to deposit tungsten from W(CO)6 in air atmosphere, and the damage of thin film transistor substrate at diverse film-forming process parameters were observed through focused ion beam-scanning electron microscope (FIB-SEM). Then, the electrical resistances of tungsten films at various film-forming process parameters were tested by high-accuracy Electrical parameter tester (EPM). The control variable method experiments indicate that the larger laser power or bigger size of slit placed in the beam path lead to more serious substrate damage but lower electrical resistivity, and high-power laser radiation without tungsten film deposition cant cause substrate damage; greater laser scan speed result in less substrate damage but higher resistivity by maintaining other effect factors constant. The lower resistivity (0.96 Ω/μm) and good surface morphology tungsten film is obtained without damage of the thin film transistor substrate at balanced condition, and component analysis shows that W(CO)6 are complete decomposed.
张伟, 陈小英, 马永生, 付婉霞, 王磊, 周贺, 徐智俊, 王博, 阮毅松. 激光化学气相沉积法在TFT-LCD电路缺陷维修中的应用[J]. 液晶与显示, 2019, 34(8): 755. ZHANG Wei, CHEN Xiao-ying, MA Yong-sheng, FU Wan-xia, WANG Lei, ZHOU He, XU Zhi-jun, Wang Bo, RUAN Yi-song. Application of laser chemical vapor deposition in repairing TFT-LCD circuit defects[J]. Chinese Journal of Liquid Crystals and Displays, 2019, 34(8): 755.