A research team from UNIST and the IBS Center for Neuroscience Imaging Research (CNIR) within Sungkyunkwan University (SKKU), has introduced a new ...

Researchers have developed a plant-based hydrogel to create shape-changing, navigable small-scale robots with potential applications in biomedicine, including conducting medical procedures such as ...

Recent years have witnessed extraordinary progress in tissue repair, driven primarily by innovations in biomaterial design and biofabrication. In ...

Hydrogels are characterized by their hydrophilic nature and 3D network structure, possessing the unique ability to absorb significant amounts of water or biological fluids. This feature makes them ...

Researchers in the lab of UChicago Pritzker School of Molecular Engineering Asst. Prof. Sihong Wang have developed a hydrogel that retains the semiconductive ability needed to transmit information ...

As the demand for advanced wound healing and drug delivery materials grows, scientists are turning to sustainable, bioactive materials for innovative solutions. A recent study by Bowei Wang et al., ...

A DNA hydrogel engineered from tetrahedral nanostructures accelerates burn wound healing by directing immune cell behavior, reducing inflammation, and supporting tissue regeneration through structural ...

Each year, bacterial infections are responsible for roughly 7.7 million deaths worldwide, with this problem further ...

Power sources used in devices found in or around biological tissue must be flexible and nontoxic, while still powerful enough ...

Acting as the main interface between the internal and the external world, the skin is the largest and most important organ of the human body. It is frequently exposed to many types of physical ...