Capable of reflecting the location and intensity of external harmful stimuli, a nociceptor
network is of great importance for receiving pain-perception information. However, the …

Pain‐perceptual nociceptors (PPN) are essential sensory neurons that recognize harmful
stimuli and can empower the human body to react appropriately and perceive precisely …

The sensory nervous system of humans mainly depends on continuous training and memory
to improve the pain-perceptional abilities for the complex noxious information in the real …

Multiple types of synaptic transistors that are capable of processing electrical signals similar
to the biological neural system hold enormous potential for application in parallel computing …

Electronic devices that can simulate the dynamics of neurotransmission in the human body
are of great interest for the development of artificial intelligence in modern information …

Designing transparent flexible electronics with multi‐biological neuronal functions and
superior flexibility is a key step to establish wearable artificial intelligence equipment. Here …

Low power electronics endowed with artificial intelligence and biological afferent characters
are beneficial to neuromorphic sensory network. Highly distributed synaptic sensory …

Artificial nociceptors with biologically complex sensory functions show intriguing potential in
the growing fields of humanoid robotics and intelligent prosthetics. However, conventional …

The neural system is a multifunctional perceptual learning system. Our brain can perceive
different kinds of information to form senses, including touch, sight, hearing, and so on …

The discovery of new pain therapeutics targeting human nociceptive circuitry is an
emerging, exciting, and rewarding field. However, current models for evaluating prospective …