Humans rely increasingly on sensors to address grand challenges and to improve quality of
life in the era of digitalization and big data. For ubiquitous sensing, flexible sensors are …

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

Intrinsically stretchable electronics with skin-like mechanical properties have been identified
as a promising platform for emerging applications ranging from continuous physiological …

Artificial pressure sensors often use soft materials to achieve skin-like softness, but the
viscoelastic creep of soft materials and the ion leakage, specifically for ionic conductors …

Bioelectronic devices and components made from soft, polymer-based and hybrid electronic
materials form natural interfaces with the human body. Advances in the molecular design of …

Wireless and wearable sensors attract considerable interest in personalized healthcare by
providing a unique approach for remote, noncontact, and continuous monitoring of various …

Intrinsically stretchable bioelectronic devices based on soft and conducting organic
materials have been regarded as the ideal interface for seamless and biocompatible …

Temporary postoperative cardiac pacing requires devices with percutaneous leads and
external wired power and control systems. This hardware introduces risks for infection …

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 …

Direct and precise monitoring of intracranial physiology holds immense importance in
delineating injuries, prognostication and averting disease. Wired clinical instruments that …