Hydrogels and their sensors are emerging as key players in biomedical electronics, offering
flexible, programmable structures and functions. Hydrogel-based sensors with stress–strain …

Hydrogels are three-dimensional polymer networks that are considered a promising option
for developing strain sensors due to their stretchability, mechanical robustness, and high …

The study aimed to develop a novel temperature and pressure dual-responsive conductive
hydrogel with self-healing, self-adhesive, biocompatible, and stretchable properties, for the …

The proportion of individuals with bladder cancer has drastically increased, thereby
rendering bladder cancer a focus of social concern and great challenge for human health …

Bioelectronic implantable devices are adept at facilitating continuous monitoring of health
and enabling the early detection of diseases, offering insights into the physiological …

Abstract 3D printing has been widely used for on-demand prototyping of complex three-
dimensional structures. In biomedical applications, PEDOT: PSS has emerged as a …

Unlike conventional rigid counterparts, soft and stretchable electronics forms crack-or defect-
free conformal interfaces with biological tissues, enabling precise and reliable interventions …

Elastically stretchable conductive hydrogels have garnered significant scholarly interest for
their potential applications in wearable sensing technologies. Yet, these highly elastic …

Spinal cord stimulation (SCS) is an emerging therapeutic option for patients with
neuropathic pain due to spinal cord injury (SCI). Numerous studies on pain relief effects with …

Chitin and chitosan‐based bioink for 3D‐printed flexible electronics have tremendous
potential for innovation in healthcare, agriculture, the environment, and industry. This …