Sound plays a crucial role in the perception of the world. It allows to communicate, learn,
and detect potential dangers, diagnose diseases, and much more. However, traditional …

Triboelectric sensors, derived from triboelectric nanogenerators, generate electrical signals
in response to mechanical stimuli. Its remarkable advantages of inherent self-powering, and …

Humans can gently slide a finger on the surface of an object and identify it by capturing both
static pressure and high-frequency vibrations. Although modern robots integrated with …

The comprehensive application of human–machine interaction (HMI) has promoted
humanization in digital life. Wearable electronic devices and artificial intelligence are driving …

Eutectogels are emerging as an appealing soft conductor for self‐powered sensing and the
next generation of flexible human–computer interactive devices owing to their inherent …

Artificial electronic skin (E‐skin), a class of promising materials mimicking the physical‐
chemical and sensory performance of the human skin, has gained extensive interest in the …

Electronic skin (E‐skin) with multimodal sensing ability demonstrates huge prospects in
object classification by intelligent robots. However, realizing the object classification …

In the past decade, with the rapid development of wearable electronics, medical health
monitoring, the Internet of Things, and flexible intelligent robots, flexible pressure sensors …

The practical implementation of memristors in neuromorphic computing and biomimetic
sensing suffers from unexpected temporal and spatial variations due to the stochastic …

As key interfaces for the disabled, optimal prosthetics should elicit natural sensations of skin
touch or proprioception, by unambiguously delivering the multimodal signals acquired by …