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 …

Hydrogel-based conductive materials for smart wearable devices have attracted increasing
attention due to their excellent flexibility, versatility, and outstanding biocompatibility. This …

Serious climate changes and energy-related environmental problems are currently critical
issues in the world. In order to reduce carbon emissions and save our environment …

Recent advancements in wearable electronics offer seamless integration with the human
body for extracting various biophysical and biochemical information for real-time health …

The advancement of the Internet of Things/5G infrastructure requires a low‐cost ubiquitous
sensory network to realize an autonomous system for information collection and processing …

Strong and ductile sodium alginate (SA) reinforced polyacrylamide (PAM)/xanthan gum (XG)
double network ionic hydrogels were constructed for stress sensing and self-powered …

The rapid development of wearable electronic devices and virtual reality technology has
revived interest in flexible sensing and control devices. Here, we report an ionic hydrogel …

With the advancements in materials science and micro/nanoengineering, the field of
wearable electronics has experienced a rapid growth and significantly impacted and …

The human somatosensory network relies on ionic currents to sense, transmit, and process
tactile information. We investigate hydrogels that similarly transduce pressure into ionic …

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