Printable Organic PIN Phototransistor and Its Application for Low Power and Noise Imaging Detection
The power consumption and the opto-electric noise of organic photo-detectors are the challenges for large-scale detecting and imaging applications to surpass. This article presents a new device concept of organic heterojunction PIN channel for photo-transistor. The presence of the channel'...
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IEEE
2022
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oai:doaj.org-article:e372e0af9e7045e084a7deb267247e5c2021-12-04T00:00:06ZPrintable Organic PIN Phototransistor and Its Application for Low Power and Noise Imaging Detection1943-065510.1109/JPHOT.2021.3128919https://doaj.org/article/e372e0af9e7045e084a7deb267247e5c2022-01-01T00:00:00Zhttps://ieeexplore.ieee.org/document/9618834/https://doaj.org/toc/1943-0655The power consumption and the opto-electric noise of organic photo-detectors are the challenges for large-scale detecting and imaging applications to surpass. This article presents a new device concept of organic heterojunction PIN channel for photo-transistor. The presence of the channel's heterostructure enables rectifying capability and effective control of defect density, which leads to low power consumption (0.12 to 7.5 nW) and low dynamic noise (4.5 × 10<sup>13</sup> Jones detectivity). Significantly, through adopting the highly efficient Perovskite Quantum Dots as intrinsic sensing core, the device exhibits high responsivity up to 7190 A/W. As we demonstrate a large-scale 10 × 20 imaging array with integrated photo-transistor, the output signals are read-out and rebuilt by I-V converting amplifier with analog-to-digital circuit and numerical computation method to visualize the functionality of the system.Zhi TaoHaixin linYanqing ZhuDie HuWeiguang YangJiangyong PanXiang LiuIEEEarticlePhototransistorperovskitequantum dotslow noiselow powerdetecting arrayApplied optics. PhotonicsTA1501-1820Optics. LightQC350-467ENIEEE Photonics Journal, Vol 14, Iss 1, Pp 1-5 (2022) |
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Phototransistor perovskite quantum dots low noise low power detecting array Applied optics. Photonics TA1501-1820 Optics. Light QC350-467 |
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Phototransistor perovskite quantum dots low noise low power detecting array Applied optics. Photonics TA1501-1820 Optics. Light QC350-467 Zhi Tao Haixin lin Yanqing Zhu Die Hu Weiguang Yang Jiangyong Pan Xiang Liu Printable Organic PIN Phototransistor and Its Application for Low Power and Noise Imaging Detection |
description |
The power consumption and the opto-electric noise of organic photo-detectors are the challenges for large-scale detecting and imaging applications to surpass. This article presents a new device concept of organic heterojunction PIN channel for photo-transistor. The presence of the channel's heterostructure enables rectifying capability and effective control of defect density, which leads to low power consumption (0.12 to 7.5 nW) and low dynamic noise (4.5 × 10<sup>13</sup> Jones detectivity). Significantly, through adopting the highly efficient Perovskite Quantum Dots as intrinsic sensing core, the device exhibits high responsivity up to 7190 A/W. As we demonstrate a large-scale 10 × 20 imaging array with integrated photo-transistor, the output signals are read-out and rebuilt by I-V converting amplifier with analog-to-digital circuit and numerical computation method to visualize the functionality of the system. |
format |
article |
author |
Zhi Tao Haixin lin Yanqing Zhu Die Hu Weiguang Yang Jiangyong Pan Xiang Liu |
author_facet |
Zhi Tao Haixin lin Yanqing Zhu Die Hu Weiguang Yang Jiangyong Pan Xiang Liu |
author_sort |
Zhi Tao |
title |
Printable Organic PIN Phototransistor and Its Application for Low Power and Noise Imaging Detection |
title_short |
Printable Organic PIN Phototransistor and Its Application for Low Power and Noise Imaging Detection |
title_full |
Printable Organic PIN Phototransistor and Its Application for Low Power and Noise Imaging Detection |
title_fullStr |
Printable Organic PIN Phototransistor and Its Application for Low Power and Noise Imaging Detection |
title_full_unstemmed |
Printable Organic PIN Phototransistor and Its Application for Low Power and Noise Imaging Detection |
title_sort |
printable organic pin phototransistor and its application for low power and noise imaging detection |
publisher |
IEEE |
publishDate |
2022 |
url |
https://doaj.org/article/e372e0af9e7045e084a7deb267247e5c |
work_keys_str_mv |
AT zhitao printableorganicpinphototransistoranditsapplicationforlowpowerandnoiseimagingdetection AT haixinlin printableorganicpinphototransistoranditsapplicationforlowpowerandnoiseimagingdetection AT yanqingzhu printableorganicpinphototransistoranditsapplicationforlowpowerandnoiseimagingdetection AT diehu printableorganicpinphototransistoranditsapplicationforlowpowerandnoiseimagingdetection AT weiguangyang printableorganicpinphototransistoranditsapplicationforlowpowerandnoiseimagingdetection AT jiangyongpan printableorganicpinphototransistoranditsapplicationforlowpowerandnoiseimagingdetection AT xiangliu printableorganicpinphototransistoranditsapplicationforlowpowerandnoiseimagingdetection |
_version_ |
1718373062048481280 |