Highlights Various morphological structures in pressure sensors with the resulting advanced
sensing properties are reviewed comprehensively. Relevant manufacturing techniques and …

Flexible tactile sensors capable of measuring mechanical stimuli via physical contact have
attracted significant attention in the field of human‐interactive systems. The utilization of …

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 …

Human skin can sense subtle changes of both normal and shear forces (ie, self-decoupled)
and perceive stimuli with finer resolution than the average spacing between …

Ultralow temperature-tolerant electronic skins (e-skins) can endow polar robots with tactile
feedback for exploring in extremely cold polar environments. However, it remains a …

Recent progress in electronic skin or e‐skin research is broadly reviewed, focusing on
technologies needed in three main applications: skin‐attachable electronics, robotics, and …

Intelligent perception means that with the assistance of artificial intelligence (AI)‐motivated
brain, flexible sensors achieve the ability of memory, learning, judgment, and reasoning …

Drawing inspiration from cohesive integration of skeletal muscles and sensory skins in
vertebrate animals, we present a design strategy of soft robots, primarily consisting of an …

Flexible sensors are highly desirable for tactile sensing and wearable devices. Previous
researches of smart elements have focused on flexible pressure or temperature sensors …

Neuromorphic sensing and processing has the potential to be used to create bioelectronic
and robotic systems that perceive, respond and adapt to environmental changes accurately …