Improve the Performance of SONOS Type UV TD Sensors Using IOHAOS with Enhanced UV Transparency ITO Gate

W. Hsieh, Fun-Cheng Jong, Wei-Ting Tseng
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引用次数: 2

Abstract

This research demonstrates that an indium tin oxide–silicon oxide–hafnium aluminum oxide-silicon oxide–silicon device with enhanced UV transparency ITO gate (hereafter E-IOHAOS) can greatly increase the sensing response performance of a SONOS type ultraviolet radiation total dose (hereafter UV TD) sensor. Post annealing process is used to optimize UV optical transmission and electrical resistivity characterization in ITO film. Via nano-columns (NCols) crystalline transformation of ITO film, UV transparency of ITO film can be enhanced. UV radiation causes the threshold voltage VT of the E-IOHAOS device to increase, and the increase of the VT of E-IOHAOS device is also related to the UV TD. The experimental results show that under UV TD irradiation of 100 mW·s/cm2, ultraviolet light can change the threshold voltage VT of E-IOHAOS to 12.5 V. Moreover, the VT fading rate of ten-years retention on E-IOHAOS is below 10%. The VT change of E-IOHAOS is almost 1.25 times that of poly silicon–aluminum oxide–hafnium aluminum oxide–silicon oxide–silicon with poly silicon gate device (hereafter SAHAOS). The sensing response performance of an E-IOHAOS UV TD sensor is greatly improved by annealed ITO gate.
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利用具有增强UV透明度ITO栅极的IOHAOS改善SONOS型UV TD传感器的性能
本研究证明了一种具有增强紫外透明ITO栅极(以下简称E-IOHAOS)的氧化铟锡-氧化硅-氧化铪铝-氧化硅-硅器件可以大大提高SONOS型紫外辐射总剂量(以下简称UV TD)传感器的传感响应性能。采用后退火工艺优化ITO薄膜的紫外光传输和电阻率表征。通过纳米柱(NCols)对ITO薄膜进行结晶转化,可以提高ITO薄膜的紫外透明度。UV辐射导致E-IOHAOS器件的阈值电压VT升高,而E-IOHAOS器件VT的升高也与UV TD有关。实验结果表明,在100 mW·s/cm2的UV TD照射下,紫外光可使E-IOHAOS的阈值电压VT达到12.5 V。此外,E-IOHAOS上10年保留的VT衰减率低于10%。E-IOHAOS的VT变化几乎是多晶硅栅极器件(以下简称SAHAOS)多晶硅-氧化铝-氧化铝铪-氧化硅-硅的1.25倍。采用退火ITO栅极,大大提高了E-IOHAOS UV TD传感器的传感响应性能。
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