Cellulose is the richest renewable polymer source on the earth. TEMPO-mediated oxidized
cellulose nanofibers are deduced from enormously available wood biomass and …

Hydrogel-based wearable electrochemical biosensors (HWEBs) are emerging biomedical
devices that have recently received immense interest. The exceptional properties of HWEBs …

Recently, the application of cellulose nanocrystals (CNCs) in the field of hydrogel sensors
has attracted much attention. However, it remains challenging to construct CNC-reinforced …

It is particularly challenging to prepare hydrogels with excellent mechanical properties that
are comparable to those of strong biological tissues such as ligaments and tendons. Here …

Conductive hydrogels have limitations such as non-degradability, loss of electrical
conductivity at sub-zero temperatures, and single functionality, which limit their applicability …

A novel triple physical cross-linking poly (ionic liquid) hydrogel, composed of poly
(acrylamide-co-dodecyl methacrylate-co-1-vinyl-3-methyluracil-imidazolium …

With the rapid advancement of flexible, portable devices, hydrogel electrolytes have gained
considerable attention as potential replacements for conventional liquid electrolytes. A …

Hydrogel-based sensors have attracted increasing attention as fascinating materials for
various applications in biomedicine and bioelectronics. However, the application of strain …

Despite the adhesive hydrogels have gained progress and popularity, it is still an enormous
challenge to develop a smart adhesion hydrogel for clinical medicine, which is an …

The revolution of electronic technology has inspired research into multifunctional electronic
devices which could integrate self-healing, conductivity, and antibacterial properties in order …