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.

Current CO₂ capture methods are inefficient and harmful to microbes used for biofuel production. This research studies how CO₂-capturing liquids damage fuel-producing microbes and identifies tolerant strains. By understanding microbial responses at the genetic level, it aims to design microbe-friendly capture systems that convert carbon dioxide into useful fuels.