MoTe synaptic transistor and its application to physical reservoir computing.

Journal: RSC advances
Published Date: Jul 10, 2025

Abstract

In this study, we systematically analyzed the synaptic properties of an MoTe-based transistor and propose a physical reservoir computing system based on it. The device was fabricated as a back-gate structure using mechanically exfoliated MoTe sheets on a SiO/Si substrate, which showed the characteristics of an n-type field effect transistor. It exhibited synaptic properties upon application of voltage pulses to the gate, such as excitatory post-synaptic currents or paired pulse facilitations. A long-term conductance modulation was achieved upon the application of a voltage pulse series, and its potential in hardware-based artificial neural networks was confirmed a simulation study. Furthermore, we demonstrated physical reservoir computing using the device in a classification task involving gray-scale handwritten digits. The nonlinear response and fading memory characteristics of the device played critical roles in achieving good accuracy in physical reservoir computing. The MoTe-based synaptic transistor demonstrates the feasibility of two-dimensional materials in neuromorphic computing for energy efficient AI systems.

Authors

  • Won Suk Oh
    Department of Intelligent Semiconductors, Soongsil University Seoul 06978 Republic of Korea hoh@ssu.ac.kr.
  • Seongwon Gim
    Department of Physics, Sogang University Seoul 04107 Republic of Korea hjbaek@sogang.ac.kr.
  • Hyunhak Jeong
    Department of Semiconductor Engineering, Tech University of Korea Siheung-si 15073 Republic of Korea.
  • Hyeonjun Baek
    Department of Physics, Sogang University Seoul 04107 Republic of Korea hjbaek@sogang.ac.kr.
  • Hongseok Oh
    Department of Intelligent Semiconductors, Soongsil University Seoul 06978 Republic of Korea hoh@ssu.ac.kr.

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