Integrated Opto-Synaptic IGZO Transistors for Image Recognition Fabricated at Room Temperature

Shu Ming Qi; Jia Cheng Li; Yang Hui Xia; Zi Chun Liu; De Dai; Ting Lu Song; Hui Xia Yang; Yuan Xiao Ma; Ye Liang Wang

doi:10.1021/acsphotonics.4c01809

Integrated Opto-Synaptic IGZO Transistors for Image Recognition Fabricated at Room Temperature

Shu Ming Qi
, Jia Cheng Li
, Yang Hui Xia
, Zi Chun Liu
, De Dai
, Ting Lu Song
, Hui Xia Yang
, Yuan Xiao Ma^*
, Ye Liang Wang^*

^*此作品的通讯作者

Beijing Institute of Technology

科研成果: 期刊稿件 › 文章 › 同行评审

7 引用（Scopus）

摘要

At room temperature, high-κ HfLaO is adopted as the gate dielectric to fabricate amorphous InGaZnO (a-IGZO) optical synaptic thin-film transistors (TFTs), for which plasma treatments are conducted on the HfLaO dielectric in O₂ and a-IGZO in Ar, respectively, namely, OPT/APT-TFTs. Consequently, high-performance a-IGZO TFTs are obtained with a high carrier mobility of 20.8 cm²/V·s, a high I_on/I_off ratio of 3.2 × 10⁶, and a small subthreshold swing (SS) of 0.25 V/dec. As compared to the pristine TFTs, the photocurrent of the OPT/APT-TFTs under a 365 nm ultraviolet (UV) light is significantly raised three times up to 1.4 μA. Meanwhile, the current decay percentage after irradiation removal is reduced from 98% down to 36% within 60 s, indicating an enhanced persistent-photoconductivity (PPC) effect. Accordingly, various optical synaptic plasticities are obtained based on which a simulated neuronal network with a high 93.22% accuracy is achieved to recognize MNIST handwritten digits. Moreover, both neurotransmitter and neuromodulator behaviors are concurrently emulated in a single device through exploiting the native three-terminal structure of the TFT. Importantly, an artificial visual nervous system is successfully constructed by integrating the a-IGZO optoelectronic TFTs for image recognition.

源语言	英语
页（从-至）	1760-1770
页数	11
期刊	ACS Photonics
卷	12
期	4
DOI	https://doi.org/10.1021/acsphotonics.4c01809
出版状态	已出版 - 16 4月 2025
已对外发布	是

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10.1021/acsphotonics.4c01809

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@article{cbdf6e264bbe46318262206c9991f88a,

title = "Integrated Opto-Synaptic IGZO Transistors for Image Recognition Fabricated at Room Temperature",

abstract = "At room temperature, high-κ HfLaO is adopted as the gate dielectric to fabricate amorphous InGaZnO (a-IGZO) optical synaptic thin-film transistors (TFTs), for which plasma treatments are conducted on the HfLaO dielectric in O2 and a-IGZO in Ar, respectively, namely, OPT/APT-TFTs. Consequently, high-performance a-IGZO TFTs are obtained with a high carrier mobility of 20.8 cm2/V·s, a high Ion/Ioff ratio of 3.2 × 106, and a small subthreshold swing (SS) of 0.25 V/dec. As compared to the pristine TFTs, the photocurrent of the OPT/APT-TFTs under a 365 nm ultraviolet (UV) light is significantly raised three times up to 1.4 μA. Meanwhile, the current decay percentage after irradiation removal is reduced from 98\% down to 36\% within 60 s, indicating an enhanced persistent-photoconductivity (PPC) effect. Accordingly, various optical synaptic plasticities are obtained based on which a simulated neuronal network with a high 93.22\% accuracy is achieved to recognize MNIST handwritten digits. Moreover, both neurotransmitter and neuromodulator behaviors are concurrently emulated in a single device through exploiting the native three-terminal structure of the TFT. Importantly, an artificial visual nervous system is successfully constructed by integrating the a-IGZO optoelectronic TFTs for image recognition.",

keywords = "a-IGZO TFTs, high-κ dielectric, image recognition, optical synaptic plasticities, persistent-photoconductivity effect",

author = "Qi, \{Shu Ming\} and Li, \{Jia Cheng\} and Xia, \{Yang Hui\} and Liu, \{Zi Chun\} and De Dai and Song, \{Ting Lu\} and Yang, \{Hui Xia\} and Ma, \{Yuan Xiao\} and Wang, \{Ye Liang\}",

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month = apr,

day = "16",

doi = "10.1021/acsphotonics.4c01809",

language = "English",

volume = "12",

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TY - JOUR

T1 - Integrated Opto-Synaptic IGZO Transistors for Image Recognition Fabricated at Room Temperature

AU - Qi, Shu Ming

AU - Li, Jia Cheng

AU - Xia, Yang Hui

AU - Liu, Zi Chun

AU - Dai, De

AU - Song, Ting Lu

AU - Yang, Hui Xia

AU - Ma, Yuan Xiao

AU - Wang, Ye Liang

PY - 2025/4/16

Y1 - 2025/4/16

N2 - At room temperature, high-κ HfLaO is adopted as the gate dielectric to fabricate amorphous InGaZnO (a-IGZO) optical synaptic thin-film transistors (TFTs), for which plasma treatments are conducted on the HfLaO dielectric in O2 and a-IGZO in Ar, respectively, namely, OPT/APT-TFTs. Consequently, high-performance a-IGZO TFTs are obtained with a high carrier mobility of 20.8 cm2/V·s, a high Ion/Ioff ratio of 3.2 × 106, and a small subthreshold swing (SS) of 0.25 V/dec. As compared to the pristine TFTs, the photocurrent of the OPT/APT-TFTs under a 365 nm ultraviolet (UV) light is significantly raised three times up to 1.4 μA. Meanwhile, the current decay percentage after irradiation removal is reduced from 98% down to 36% within 60 s, indicating an enhanced persistent-photoconductivity (PPC) effect. Accordingly, various optical synaptic plasticities are obtained based on which a simulated neuronal network with a high 93.22% accuracy is achieved to recognize MNIST handwritten digits. Moreover, both neurotransmitter and neuromodulator behaviors are concurrently emulated in a single device through exploiting the native three-terminal structure of the TFT. Importantly, an artificial visual nervous system is successfully constructed by integrating the a-IGZO optoelectronic TFTs for image recognition.

AB - At room temperature, high-κ HfLaO is adopted as the gate dielectric to fabricate amorphous InGaZnO (a-IGZO) optical synaptic thin-film transistors (TFTs), for which plasma treatments are conducted on the HfLaO dielectric in O2 and a-IGZO in Ar, respectively, namely, OPT/APT-TFTs. Consequently, high-performance a-IGZO TFTs are obtained with a high carrier mobility of 20.8 cm2/V·s, a high Ion/Ioff ratio of 3.2 × 106, and a small subthreshold swing (SS) of 0.25 V/dec. As compared to the pristine TFTs, the photocurrent of the OPT/APT-TFTs under a 365 nm ultraviolet (UV) light is significantly raised three times up to 1.4 μA. Meanwhile, the current decay percentage after irradiation removal is reduced from 98% down to 36% within 60 s, indicating an enhanced persistent-photoconductivity (PPC) effect. Accordingly, various optical synaptic plasticities are obtained based on which a simulated neuronal network with a high 93.22% accuracy is achieved to recognize MNIST handwritten digits. Moreover, both neurotransmitter and neuromodulator behaviors are concurrently emulated in a single device through exploiting the native three-terminal structure of the TFT. Importantly, an artificial visual nervous system is successfully constructed by integrating the a-IGZO optoelectronic TFTs for image recognition.

KW - a-IGZO TFTs

KW - high-κ dielectric

KW - image recognition

KW - optical synaptic plasticities

KW - persistent-photoconductivity effect

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SN - 2330-4022

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EP - 1770

JO - ACS Photonics

JF - ACS Photonics

IS - 4

ER -

Integrated Opto-Synaptic IGZO Transistors for Image Recognition Fabricated at Room Temperature

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