Una startup francesa desarrolla un polímero líquido para ayudar a la regeneración nerviosa

A team from Universidad Técnica Federico Santa María has created a biomimetic patch using ulmo honey to regenerate wounds and burns. The material, based on nanotechnology, mimics human skin structure and promotes cell growth. Researchers highlight its economic potential compared to imported alternatives.

29 de mayo de 2026 Reportado por IA

Researchers at the University of Cambridge have developed miniature lab-grown models of the human brain and spinal cord that show damaged nerve fibers can regain the ability to regrow under certain conditions.

Researchers have found that packed rice grains weaken under rapid compression but remain stronger under slow pressure. This unusual property has been used to create a metamaterial that automatically adjusts its behavior based on the speed of applied forces.

30 de marzo de 2026 Reportado por IA

Researchers at Drexel University have discovered that certain viscous liquids can snap apart like solids when stretched with sufficient force. The finding, detailed in a study published in Physical Review Letters, challenges traditional views of fluid dynamics by linking the behavior to viscosity rather than elasticity. This phenomenon was observed in simple liquids such as tar-like hydrocarbons and styrene oligomer.