Together with the microalgae advances, these innovations form a system that’s being called the ‘circular cell culture system’ 5. The immediate goal is to have a 30-square-metre closed system ...

Scientists have spent decades genetically modifying the bacterium Escherichia coli and other microbes to convert carbon dioxide into useful biological products. Most methods require additional carbon ...

coli, the bacteria will consume the glycolate, keeping the microalgae alive and relatively healthy. Numerous experiments led to the design of a modular co-culture bioreactor. First, C. reinhardtii ...

Malaysia is one of the most biologically diverse nations, and habitat to a vast population of microalgae species. Our goal is to establish advanced microalgae mass-culture reactors suited to tropical ...

In this study, we are developing technology for the large-scale culture and fermentation of microalgae, hydrogen generation from biomass, and reducing emissions from coal-fired power stations by mixed ...

HyveGeo first experimented with turning microalgae into biochar, before realizing it was “like growing saffron and burning it,” according to Redha. Instead, the company now puts microalgae ...

"Magnetic microalgae on a mission to become robots." ScienceDaily. www.sciencedaily.com / releases / 2025 / 03 / 250317163520.htm (accessed April 2, 2025). Explore More ...

These microalgae can be magnetically steered, navigating confined spaces effectively. In viscous environments, they move in a zigzag pattern under magnetic fields.