![CO2-Derived Carbon Capture and Photon Absorption Efficiency by Microalgae in Novel PhotoBioCREC | Industrial & Engineering Chemistry Research CO2-Derived Carbon Capture and Photon Absorption Efficiency by Microalgae in Novel PhotoBioCREC | Industrial & Engineering Chemistry Research](https://pubs.acs.org/cms/10.1021/acs.iecr.0c02319/asset/images/medium/ie0c02319_0008.gif)
CO2-Derived Carbon Capture and Photon Absorption Efficiency by Microalgae in Novel PhotoBioCREC | Industrial & Engineering Chemistry Research
UPLIFT - French biochemist Pierre Calleja has developed a lighting system that requires no electricity, using Algae. Algae absorbs large amounts of CO2, therefore they can generate power even in the absence
![anand mahindra on X: "“French biochemist Pierre Calleja has developed a lighting system requiring no electricity. Instead, it draws CO2 from the atmosphere to produce light. By Using micro-algae, his lamp emits anand mahindra on X: "“French biochemist Pierre Calleja has developed a lighting system requiring no electricity. Instead, it draws CO2 from the atmosphere to produce light. By Using micro-algae, his lamp emits](https://pbs.twimg.com/media/EINzoPMXkAAis76.jpg)