The progress of soft robot industry has driven the development of electronic devices.
Electronic devices used in electronic skin or wearable electronic devices require conductive …

Hydrogel nanocomposites have been recognized as 'smart materials' owing to their three-
dimensional polymeric structures that can easily stabilize the constituent nanomaterials …

Nanomaterials' unique structures at the nanometer level determine their incredible functions,
and based on this, they can be widely used in the field of nanomedicine. However …

The incorporation of nanoparticles into hydrogels yields novel superstructures that have
become increasingly popular in biomedical research. Each component of these nanoparticle …

Hydrogel is a three‐dimensional cross‐linked hydrophilic network that can imbibe a large
amount of water inside its structure (up to 99% of its dry weight). Due to their unique …

Cells in vivo are situated in a complicated microenvironment composed of diverse
biochemical and biophysical cues. To regulate biological functions of cells, tissues and …

In recent years, tissue engineering techniques have been rapidly developed and offer a new
therapeutic approach to organ or tissue damage repair. However, most of tissue engineering …

Wounds represent a grave affliction that profoundly impacts human well-being. Establishing
barriers, preventing infections, and providing a conducive microenvironment constitute the …

Arteriosclerosis (AS) presents a significant global health challenge, demanding innovative
therapeutic strategies. This review explores the potential of nanoparticles (NPs) and …

Natural biopolymer scaffolds and conductive nanomaterials have been widely used in
cardiac tissue engineering; however, there are still challenges in the scaffold fabrication …