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 …

Over the past few decades, flexible sensors have been developed from the “electronic” level
to the “iontronic” level, and gradually to the “ionic” level. Ionic flexible sensors (IFS) are one …

Ionogels are promising material candidates for ionotronics due to their excellent ionic
conductivity, stretchability, and thermal stability. However, it is challenging to develop 3D …

Flexible wearable strain sensors have received extensive attention in human–computer
interaction, soft robotics, and human health monitoring. Despite significant efforts in …

With the prospect of a smart society in the foreseeable future, humans are experiencing an
increased link to electronics in the digital world, which can benefit our life and productivity …

Flexible and stretchable piezoresistive strain sensors which can translate mechanical stimuli
(strain changes) into electrical signals (resistance changes) provide a simple and feasible …

Wearable electronics have revolutionized the way physiological parameters are sensed,
detected, and monitored. In recent years, advances in flexible and stretchable hybrid …

Skin-like sensor has recently emerged for its promising applications in human motion
monitoring and healthcare. However, it is challenging to develop flexible skin-like sensors …

Integrating multifunctionality such as adhesiveness, stretchability, and self-healing ability on
a single hydrogel has been a challenge and is a highly desired development for various …

Tactile sensors, most commonly referred as strain and pressure sensors, can collect
mechanical property data of the human body and local environment, to provide valuable …