Artificial spider silk could be a smart and responsive alternative to traditional wound dressings, helping patients and medical staff to monitor recovery in real time.
Scientists create the world’s thinnest X-ray detector
Tin mono-sulfide nanosheets prove to be effective and sensitive soft X-ray detectors with potential to monitor biological systems in real time.
Doping solar cells to improve performance
Researchers are investigating ways to increase the efficiency and stability of solar cells, which could improve their commercial use as an alternative energy source.
Understanding the chemistry of 19th century paintings
Scientists at Sarbonne University reveal the chemical secrets behind the Romantic era’s most celebrated artists.
Taking the sting out of dental procedures with microneedles
A charged microneedle patch for pain-free delivery of anesthetics could replace anxiety-inducing needles in dental work.
Protective powers of small beetles
Exoskeletons of tree-dwelling and terrestrial beetles differ in their structural-mechanical properties and have inspired the design of new composite materials used for bioengineering.
Scientists make ink for 3D printing from pollen
A pollen-based ink opens doors for advancements in 3D bioprinting.
Battery boost found by mimicking the wonders of bamboo
New membrane inspired from bamboo allows researchers to create new 2D material for better ion transport in batteries.
Hydrogel improves stem cell survival in treating Parkinson’s disease in mice
A new type of hydrogel could radically transform a novel stem cell treatment for Parkinson’s disease.
3D printing cell substrate topographies
Scientists use 3D printing to combine fundamental biology research methods with high-throughput screening of cell culture surface topographies.