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    Journals >Journal of Inorganic Materials >Volume 38 >Issue 4 >Page 399 > Article
    • Journal of Inorganic Materials
    • Vol. 38, Issue 4, 399 (2023)
    Associative Learning with Oxide-based Electrolyte-gated Transistor Synapses
    Renrui FANG1,2, Kuan REN1, Zeyu GUO1,2, Han XU1,2..., Woyu ZHANG1,2, Fei WANG1,2, Peiwen ZHANG1,2, Yue LI1,2 and Dashan SHANG1,2,*|Show fewer author(s)
    Author Affiliations
  • 11. Key Laboratory of Microelectronic Devices and Integrated Technology, Institute of Microelectronics, Chinese Academy of Sciences, Beijing 100029, China
  • 22. University of Chinese Academy of Sciences, Beijing 100049, China
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    DOI: 10.15541/jim20220519 Cite this Article
    Renrui FANG, Kuan REN, Zeyu GUO, Han XU, Woyu ZHANG, Fei WANG, Peiwen ZHANG, Yue LI, Dashan SHANG. Associative Learning with Oxide-based Electrolyte-gated Transistor Synapses[J]. Journal of Inorganic Materials, 2023, 38(4): 399 Copy Citation Text show less
    Output characteristic curves under different gate voltages with inset showing the optical pattern (a), transfer characteristic curve (b), gate leakage current curve (c), and working mechanism (d-f) of EGT
    1. Output characteristic curves under different gate voltages with inset showing the optical pattern (a), transfer characteristic curve (b), gate leakage current curve (c), and working mechanism (d-f) of EGT
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    Analogy between EGT and biological synapse (a), EPSC under (3 V, 9 s) pulse (b), PPF stimulated by a pair of gate voltage pulses spaced 0.6 s apart (c), PPF index as a function of pulse interval (d)
    2. Analogy between EGT and biological synapse (a), EPSC under (3 V, 9 s) pulse (b), PPF stimulated by a pair of gate voltage pulses spaced 0.6 s apart (c), PPF index as a function of pulse interval (d)
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    Response of EGT to a series of gate voltage pulses of different pulses amplitude (a), pulses width (b), and pulses frequency (c), dependence of conductance change ratio on pulses amplitude (d) and pulses width (e)Colorful figures are available on website
    3. Response of EGT to a series of gate voltage pulses of different pulses amplitude (a), pulses width (b), and pulses frequency (c), dependence of conductance change ratio on pulses amplitude (d) and pulses width (e)Colorful figures are available on website
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    Effect of long-term enhanced synaptic weights on neuromorphic computational function
    4. Effect of long-term enhanced synaptic weights on neuromorphic computational function
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    (a) Schematic diagram of classical conditioning using EGT and (b) corresponding equivalent circuit, and (c) simulation of biological classical conditioning
    5. (a) Schematic diagram of classical conditioning using EGT and (b) corresponding equivalent circuit, and (c) simulation of biological classical conditioning
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    Abstract
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    Renrui FANG, Kuan REN, Zeyu GUO, Han XU, Woyu ZHANG, Fei WANG, Peiwen ZHANG, Yue LI, Dashan SHANG. Associative Learning with Oxide-based Electrolyte-gated Transistor Synapses[J]. Journal of Inorganic Materials, 2023, 38(4): 399
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