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 …

Over the last decade, extensive efforts have been made on utilizing advanced materials and
structures to improve the properties and functionalities of flexible electronics. While the …

Elastic stretchability and function density represent two key figures of merits for stretchable
inorganic electronics. Various design strategies have been reported to provide both high …

Highlights Various morphological structures in pressure sensors with the resulting advanced
sensing properties are reviewed comprehensively. Relevant manufacturing techniques and …

Advances in flexible and stretchable electronics have enabled an unprecedented level of
coupling between electronics and bio-tissues by overcoming obstacles associated with the …

Electronic skin (e‐skin) is driving significant advances in flexible electronics as it holds great
promise in health monitoring, human–machine interfaces, soft robotics, and so on. Flexible …

The demand for high-quality healthcare and well-being services is remarkably increasing
due to the ageing global population and modern lifestyles. Recently, the integration of …

Electronic skins (e-skins) have seen intense research and rapid development in the past two
decades. To mimic the capabilities of human skin, a multitude of flexible/stretchable sensors …

Advances in fabric strain sensors have established a route to comfortable‐to‐wear flexible
electronics with particularly remarkable permeability and low modulus due to their porous …