posted on 2023-11-21, 07:14authored byJiayu Li, Yangzhou Qian, Yunxin Ke, Wen Li, Wei Huang, Mingdong Yi
A nociceptor
can recognize the stimuli that exceed the threshold
of human pain perception so that the human body can respond in time.
However, the current function of artificial nociceptors is limited
to recognize harmful stimuli and generate immunity, and there is less
simulation for more diverse physiological behaviors. Designing artificial
synapses with multibiological neuronal functions as well as learning,
memory, and sensory functions is more conducive to artificial intelligence
systems. Here, we report a solution-processable multifunctional organic
polymer artificial synaptic device. With the achievement of multiessential
synaptic functions, an important sensory neuron, nociceptor, is simulated
and can accurately distinguish between relaxed, sensitized, and desensitized
states. Additionally, we employed synaptic devices for heart rate
monitoring and realized the recognition of excessive heart rate and
hypertension to achieve the purpose of health detection. Finally,
a flexible memristor with stable switching behaviors after repeated
mechanical bending was fabricated. The simultaneous realization of
the functions for nociceptor simulation and neuromorphic computing
is more beneficial to the establishment of an artificial intelligence
system. Our research provides a reference for the application of neuromorphic
devices in the areas of intelligent sensory systems and robotics.