Recently, sensors that can imitate human skin have received extensive attention. Capacitive
sensors have a simple structure, low loss, no temperature drift, and other excellent …

Architected flexible electronic devices with rationally designed 3D geometries have found
essential applications in biology, medicine, therapeutics, sensing/imaging, energy, robotics …

Soft electronics are intensively studied as the integration of electronics with dynamic
nonplanar surfaces has become necessary. Here, a discussion of the strategies in materials …

Recent technological advances in nanomaterials have driven the development of high‐
performance light‐emitting devices with flexible and stretchable form factors. Deformability in …

Exciting advancements have been made in the field of flexible electronic devices in the last
two decades and will certainly lead to a revolution in peoples' lives in the future. However …

Over the past decade, the area of stretchable inorganic electronics has evolved very rapidly,
in part because the results have opened up a series of unprecedented applications with …

Flexible electrochemical energy storage (FEES) devices have received great attention as a
promising power source for the emerging field of flexible and wearable electronic devices …

Human skin is a remarkable organ. It consists of an integrated, stretchable network of
sensors that relay information about tactile and thermal stimuli to the brain, allowing us to …

The primary developing trends in flexible and stretchable electronics involve the innovation
of material synthesis, mechanical design, and fabrication strategies that employ soft …

Stretchable electronics provide a foundation for applications that exceed the scope of
conventional wafer and circuit board technologies due to their unique capacity to integrate …