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 …

Hydrogels have been attracting increasing attention for application in wearable electronics,
due to their intrinsic biomimetic features, highly tunable chemical–physical properties …

Electronic devices based on conducting polymer hydrogels have emerged as one of the
most promising implantable bioelectronics for electrophysiological monitoring and diagnosis …

Reducing the swelling of tissue‐adhesive hydrogels is crucial for maintaining stable tissue
adhesion and inhibiting tissue inflammation. However, reported strategies for reducing …

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

Because of their distinct electrochemical and mechanical properties, conducting polymer
hydrogels have been widely exploited as soft, wet, and conducting coatings for conventional …

Traditional human emotion recognition is based on electroencephalogram (EEG) data
collection technologies which rely on plenty of rigid electrodes and lack anti‐interference …

Hydrogel bioadhesion technology has offered unprecedented opportunities in minimally‐
invasive surgeries, which are routinely performed to reduce postoperative complication …

A prominent research topic in contemporary advanced functional materials science is the
production of smart materials based on polymers that may independently adjust their …

Flexible electronics are playing an increasingly important role in human health monitoring
and healthcare diagnosis. Strong adhesion on human tissue would be ideal for reducing …