This research advances artificial photosynthesis by developing a dual-function “two-way” material that combines electrical conductivity and CO₂ adsorption. By pairing this material with simple powder-based fabrication, the study achieves dramatically improved reaction speed and efficiency, enabling scalable, sustainable carbon-neutral energy systems.

PFAS “forever chemicals” contaminate water, food, and air and accumulate in the body, causing serious health risks. This research develops a light-activated porous material that traps and breaks down PFAS molecules. Tested in real-world water and now being scaled up, the method aims to provide a practical, permanent solution for removing PFAS and protecting safe drinking water.