The emergence of plastic electronics satisfies the increasing demand for flexible electronics.
However, it has caused severe ecological problems. Flexible electronics based on natural …

Hydrogels and their sensors are emerging as key players in biomedical electronics, offering
flexible, programmable structures and functions. Hydrogel-based sensors with stress–strain …

It is essential and of great significance to impart high mechanical performance,
environmental stability, and high sensitivity to emerging flexible temperature sensors. In this …

Advances in emerging technologies for wireless collection and the timely analysis of various
information captured by wearable devices are of growing interest. Herein, a crosslinked …

Outstanding overall mechanical properties are essential for the successful utilization of
hydrogels in advanced applications such as human-machine interfaces and soft robotics …

Hydrogels have entered the spotlight for applications in soft electronics. It is essential and
challenging to obtain hydrogels that can function properly under varying environmental …

The conductive hydrogels with skin-like modulus have flourished as a promising soft
electronic material for health monitoring and human-machine interface systems …

Recent progress in the development of synthetic polymer networks has enabled the next
generation of hydrogel-based machines and devices. The ability to mimic the mechanical …

Flexible/stretchable electronics, which are characterized by their ultrathin design, lightweight
structure, and excellent mechanical robustness and conformability, have garnered …

Ionogels are compelling materials for flexible hybrid electronics owing to their attractive
physical properties and infinite adjustability of chemical structures. However, ionogels must …