Flexible and body-compliant devices-based on eco-friendly materials represent one of the
most challenging needs to monitor human health continuously and seamlessly, while …

In recent years, the rapid advancement of wearable multifunctional bioelectronics has
expanded the horizons of smart biomedical and healthcare applications. However, there is a …

The demand for eco-friendly wearable sensors is driving the exploration of stretchable,
biocompatible, conductive, and recyclable materials for detecting electromechanical signals …

Leveraging the fluidity and excellent conductivity of liquid metal (gallium‐indium alloy),
liquid metal (LM) can be utilized to manufacture flexible and stretchable electronic products …

Conductive hydrogels have been widely applied to develop flexible and wearable sensors.
Classic conductive polymers such as poly (3, 4-ethylenedioxythiophene): poly …

As the requirements for wearable electronic devices continue to increase, the development
of bendable and foldable supercapacitors is becoming critical. However, it is still challenging …

The recent advancement of stretchable photoelectronics has catalyzed revolutionary
transformations in various cutting-edge fields. However, the stretchable transparent …

Significant challenges have emerged in the development of biomimetic electronic interfaces
capable of dynamic interaction with living organisms and biological systems, including …

Porous materials exhibit exceptional suitability for underwater pollutant purification through
selective absorption of water and oil. However, most reported porous materials designed for …

Creating soft sensors is a significant research topic in the field of sensors. Electric
micro/nanoparticles have special advantages in constructing various soft sensors, eg, textile …