In humans, fine textures' tactile perception is mediated by fingertip skin, which is essential for
environmental information obtaining and precision manipulation of objects. The keys to …

Electronic skin (e‐skin) has been under the spotlight due to great potential for applications in
robotics, human–machine interfaces, and healthcare. Meanwhile, triboelectric …

Tactile electronic skin (e-skin) aims to mimic the functions of skin, which could have
profound implications for areas including medical care, prosthetics and robotics. However, it …

Finger skin electronics are essential for realizing humanoid soft robots and/or medical
applications that are very similar to human appendages. A selective sensitivity to pressure …

We report human skin based triboelectric nanogenerators (TENG) that can either harvest
biomechanical energy or be utilized as a self-powered tactile sensor system for touch pad …

Tactile perception sensing, which could endow artificial devices with human-like abilities, is
indispensable for new generation intelligent prosthetic. However, the development of …

Electronic skin that is deformable, self-healable, and self-powered has high competitiveness
for next-generation energy/sense/robotic applications. Herein, we fabricated a stretchable …

Recent advances in flexible electronics have brought great promotions to the next
generation of wearable devices, like electronic skin (E-skin). Nevertheless, the powering …

The development of electronic-skin (e-skin) with artificial tactile-perception is crucial for
emerging artificial-intelligence systems. However, considering the relatively simple function …

Flexible and stretchable human-machine Interfacing devices have attracted great attention
due to the need for portable, ergonomic, and geometrically compatible devices in the new …