Polyurethanes are a versatile and highly tunable class of materials that possess unique
properties including high tensile strength, abrasion and fatigue resistance, and flexibility at …

The global orthopedic market is forecasted to reach US $79.5 billion by the end of this
decade. Factors driving the increase in this market are population aging, sports injury, road …

The treatment of severely damaged wounds is a serious challenge as these wounds have
poor self-healing capacity, take longer to heal, and are prone to becoming chronic wounds …

Lately, 3D cell culture technique has gained a lot of appreciation as a research model.
Augmented with technological advancements, the area of 3D cell culture is growing rapidly …

Bone injuries and fractures are often associated with post-surgical failures, extended
healing times, infection, a lack of return to a normal active lifestyle, and corrosion associated …

Tubular polymer scaffolds based on tissue engineering techniques have been studied as
potential alternatives for vascular regeneration implants. The blood vessels of the …

Tissue-engineered scaffolds are considered a promising strategy for repairing damaged
bone tissues. Further, rotary jet spinning (RJS) is an attractive technique for fabricating …

The effect of tissue engineering strategies in combination with Lactobacillus plantarum and
platelet-rich growth factor (PRGF) with the aim of creating an appropriate wound dressing …

Vascular graft surgeries are often conducted in trauma cases, which has increased the
demand for scaffolds with good biocompatibility profiles. Biodegradable scaffolds …

We report the use of fluorinated polymer zwitterions to build hybrid systems for efficient CO2
electroreduction. The unique combination of hydrophilic phosphorylcholine and …