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

Polydopamine (PDA) is a fascinating bioinspired material for the construction of diverse
functional materials. In particular, the growing trend of PDA hydrogels clearly reveals the …

Flexible and wearable electronics have recently gained considerable research interest due
to their potential applications in personal healthcare, electronic skins, and human–machine …

Hydrogels have emerged as powerful building blocks to develop various soft bioelectronics
because of their tissue‐like mechanical properties, superior bio‐compatibility, the ability to …

Soft bioelectronic devices can be interfaced with anatomically curved organs, such as the
heart, brain and skin, to provide continuous analysis of physiological information. However …

Tissue engineering is a promising and revolutionary strategy to treat patients who suffer the
loss or failure of an organ or tissue, with the aim to restore the dysfunctional tissues and …

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

The human body continuously emits physiological and psychological information from head
to toe. Wearable electronics capable of noninvasively and accurately digitizing this …

Conductive hydrogels can be prepared by incorporating various conductive materials into
polymeric network hydrogels. In recent years, conductive hydrogels have been developed …

As water‐saturated polymer networks, hydrogels are a growing family of soft materials that
have recently become promising candidates for flexible electronics application. However, it …