Recent advances in nanostructured materials and unconventional device designs have
transformed the bioelectronics from a rigid and bulky form into a soft and ultrathin form and …

Stimuli-responsive conductive hydrogels have emerged as a new rising concept in the
hydrogel research field due to their combined advantages of stimuli-responsivity and …

Recently, self-healing hydrogel bioelectronic devices have raised enormous interest for their
tissue-like mechanical compliance, desirable biocompatibility, and tunable adhesiveness on …

Conductive hydrogels are widely used in various applications, such as artificial skin, flexible
and implantable bioelectronics, and tissue engineering. However, it is still a challenge to …

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

In this review, we focus on the very recent developments on the use of the stimuli responsive
properties of polymer hydrogels for targeted drug delivery, tissue engineering, and …

In today's world, the progress of wearable tools has gained increasing momentum. Notably,
the demand for stretchable strain sensors has considerably increased owing to various …

Recently, artificial intelligence research has driven the development of stretchable and
flexible electronic systems. Conductive hydrogels are a class of soft electronic materials that …

This Review presents polysaccharides, oligosaccharides, nucleic acids, peptides, and
proteins as functional stimuli‐responsive polymer scaffolds that yield hydrogels with …

Conducting polymer hydrogels have been employed in diverse fields such as energy
storage and bioelectronics, which possess both the mechanical properties of hydrogels and …