Synaptic plasticity modulation and coincidence detection emulated in multi-terminal neuromorphic transistors

Rui Liu; Yongli He; Shanshan Jiang; Longcheng Wang; Qing Wan

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Synaptic plasticity modulation and coincidence detection emulated in multi-terminal neuromorphic transistors

机译：多末端神经晶体管中仿真的突触可塑性调制和重合检测

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Human brain is a powerful biological computer that can processing a large number of cognitive tasks simultaneously. Inspired by our brain, many emerging devices have been developed for neuromorphic computing and perception in recent years. Due to the interfacial electron/ion coupling, electric-double-layer (EDL) transistors gated by electrolytes are promising candidates for neuromorphic devices. Here, we demonstrate a multi-terminal indium-tin-oxide (ITO)-based EDL transistor gated by chitosan electrolyte and this device exhibits good electrical properties. Short-term synaptic plasticity modulation and neuron functions (temporal integration, coincidence detection) are investigated. Our results indicate that oxide-based EDL transistors are promising for neuromorphic application.

机译：人的大脑是一种强大的生物计算机，可以同时处理大量认知任务。灵感来自我们的大脑，许多新兴器件近年来为神经族经计算和感知开发。由于界面电子/离子耦合，电解质门控的电双层（EDL）晶体管是神经族装置的候选者。这里，我们证明了通过壳聚糖电解质门控的多末端氧化锡（ITO）的基础氧化物晶体管，该装置具有良好的电性能。研究了短期突触可塑性调制和神经元功能（时间整合，重合检测）。我们的结果表明，基于氧化物的EDL晶体管对神经族施用有望。

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来源
《Organic Electronics》 |2021年第5期|106125.1-106125.4|共4页
作者
Rui Liu; Yongli He; Shanshan Jiang; Longcheng Wang; Qing Wan;
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作者单位

School of Electronic Science and Engineering Nanjing University Nanjing 210023 People's Republic of China;

School of Electronic Science and Engineering Nanjing University Nanjing 210023 People's Republic of China;

School of Electronic Science and Engineering Nanjing University Nanjing 210023 People's Republic of China;

School of Materials Science and Engineering Zhejiang Sci-Tech University Hangzhou 310018 People's Republic of China;

School of Electronic Science and Engineering Nanjing University Nanjing 210023 People's Republic of China;

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原文格式 PDF
正文语种 eng
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Electric-double-layer transistors; Plasticity modulation; Neuromorphic computing;

机译：电双层晶体管;可塑性调制;神经形态计算;

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1. Dual-Functional Long-Term Plasticity Emulated in IGZO-Based Photoelectric Neuromorphic Transistors [J] . He Yongli, Nie Sha, Liu Rui, IEEE Electron Device Letters . 2019,第5期

机译：基于IGZO的光电神经形态晶体管模拟的双功能长期可塑性
2. Optogenetics-Inspired Neuromorphic Optoelectronic Synaptic Transistors with Optically Modulated Plasticity [J] . Sun Yilin, Ding Yingtao, Xie Dan, Advanced Optical Materials . 2021,第12期

机译：具有光学调制可塑性的光学机构启发的神经晶光电突触晶体管
3. Short-Term Plasticity and Synaptic Filtering Emulated in Electrolyte-Gated IGZO Transistors [J] . Xiang Wan, Yi Yang, Ping Feng, IEEE Electron Device Letters . 2016,第3期

机译：电解质门控IGZO晶体管中的短期可塑性和突触滤波仿真
4. Low Temperature Polycrystalline Silicon Thin Film Synaptic Transistor with Bilingual Plasticity for Neuromorphic Computing [C] . Nian Duan, Yi Li, Xiang-Shui Miao, IEEE International Conference on Integrated Circuits, Technologies and Applications . 2018

机译：具有双语可塑性的低温多晶硅薄膜突触晶体管，用于神经形态计算
5. Fine-tuning Synaptic Plasticity by Modulation of Presynaptic Calcium(V)2.1 Channels with Calcium(II) Sensor Proteins. [D] . Leal, Karina. 2012

机译：通过调节钙（II）传感器蛋白的突触前钙（V）2.1通道微调突触可塑性。
6. Activity‐dependent synaptic integration and modulation of bilateral excitatory inputs in an auditory coincidence detection circuit [O] . Yong Lu, *, Yuwei Liu, 2018

机译：听觉符合检测电路中与活动有关的突触整合和双边兴奋性输入的调制
7. Emulations of synaptic plasticity in the planar transistor configuration for neuromorphic computing [O] . Yan CHEN, ChenXi ZHANG, LaiYuan WANG, 2017

机译：神经晶体计算平面晶体管配置中突触塑性的仿真

Synaptic plasticity modulation and coincidence detection emulated in multi-terminal neuromorphic transistors

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