ABSTRACT Research into memristor‐based artificial nociceptors has rapidly progressed in biomimetics. However, most studies have focused on single‐stimulus nociceptive function, leaving polymodality, particularly temperature‐dependent threshold modulation, significantly underexplored. Here, we propose a volatile TiN/TiO x /ZnO/TiO x /ITO (TZT) memristor designed to realize comprehensive polymodal nociceptive functionalities. Crucially, our device exhibits temperature‐dependent conductance, enabling the emulation of pain threshold modulation. Based on this property, we demonstrate the polymodal features in fundamental nociceptor behaviors, including threshold response, no‐adaptation, sensitization, and relaxation. We further replicated these behaviors at the system level by integrating the memristor with a force‐sensitive resistor and a microheater. The resulting polymodal nociceptor system successfully generates appropriate nociceptive signals in response to both mechanical and thermal stimuli. These findings, which move beyond single‐stimulus confinement, highlight the potential of our device as an advanced artificial nociceptor capable of providing a broader spectrum of pain responses in biomimetic platforms.
Hwang et al. (Fri,) studied this question.