Researchers have used plasma technology to transform a species of blue-green microalgae into a bioactive coating with incredible wound-healing properties. They say the novel coating can be applied to ...

(Nanowerk Spotlight) The development of sustainable and biocompatible materials has become increasingly important in scientific research, driven by growing environmental concerns and the need for ...

Microalgae excel at capturing carbon dioxide and converting it into high-value compounds such as lipids (oils) and terpenoids ...

Researchers at Flinders University have taken a major step in the field of wound care by using plasma technology to ‘transform’ Spirulina microalgae into ultrathin bioactive coatings. The innovative ...

Tiny, sun-powered organisms found in freshwater pools could soon fuel Hawaiʻi's sustainable future. Researchers at the ...

Their findings, published in Science Advances, described the development of biohybrid microrobots from green algae laden with chemotherapeutic drugs which reduced lung metastasis burden and prolonged ...

It’s hard to green the desert. Take China, or Africa’s Sahel region, for example. Their “Great Green Walls,” grand projects to beat back encroaching desert by planting trees, have required decades of ...

The year is 2050. Agriculture happens in labs, as well as fields. And on the menu for dinner? Microalgae. That speculative future meal might not sound very appealing, but microalgae are packed with ...

Verde Dualair, developed by Atoz Carbon Cycle, a startup and alumnus of the Selangor Accelerator Programme (SAP) by Sidec, harnesses microalgae to improve indoor air quality while supporting carbon ...