光电探测器
暗电流
材料科学
光电子学
光电二极管
噪音(视频)
图层(电子)
活动层
载流子
比探测率
电流(流体)
制作
线性
纳米技术
计算机科学
薄膜晶体管
图像(数学)
病理
人工智能
医学
替代医学
作者
Sixing Xiong,Lingliang Li,Fei Qin,Lin Mao,Bangwu Luo,Youyu Jiang,Zaifang Li,Jinsong Huang,Yinhua Zhou
标识
DOI:10.1021/acsami.6b16788
摘要
Low noise current is critical for achieving high-detectivity organic photodetectors. Inserting charge-blocking layers is an effective approach to suppress the reverse-biased dark current. However, in solution-processed organic photodetectors, the charge-transport material needs to be dissolved in solvents that do not dissolve the underneath light-absorbing layer, which is not always possible for all kinds of light-absorbing materials developed. Here, we introduce a universal strategy of transfer-printing a conjugated polymer, poly(3-hexylthiophene) (P3HT), as the electron-blocking layer to realize highly sensitive photodetectors. The transfer-printed P3HT layers substantially and universally reduced the reverse-biased dark current by about 3 orders of magnitude for various photodetectors with different active layers. These photodetectors can detect the light signal as weak as several picowatts per square centimeter, and the device detectivity is over 1012 Jones. The results suggest that the strategy of transfer-printing P3HT films as the electron-blocking layer is universal and effective for the fabrication of sensitive organic photodetectors.
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