The flourishing development of flexible healthcare sensing systems is inseparable from the
fundamental materials with application-oriented mechanical and electrical properties …

A grand family of two-dimensional (2D) materials and their heterostructures have been
discovered through the extensive experimental and theoretical efforts of chemists, material …

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

Flexible conductive materials with intrinsic structural characteristics are currently in the
spotlight of both fundamental science and advanced technological applications due to their …

With steadily growing environmental problems by synthetic compounds, using eco-friendly
biomass-derived biopolymers and other native materials has drawn tremendous attention …

In the past decade, the global industry and research attentions on intelligent skin-like
electronics have boosted their applications in diverse fields including human healthcare …

Conductive hydrogels as flexible electronic devices, not only have unique attractions but
also meet the basic need of mechanical flexibility and intelligent sensing. How to endow …

The development of next-generation bioelectronics, as well as the powering of consumer
and medical devices, require power sources that are soft, flexible, extensible, and even …

Emerging fields, such as wearable electronics, digital healthcare, the Internet of Things, and
humanoid robots, highlight the need for flexible devices capable of recording signals on …

Transient electronic systems represent an emerging class of technology that is defined by an
ability to fully or partially dissolve, disintegrate, or otherwise disappear at controlled rates or …