Discover the groundbreaking work of a research team that has created a cutting-edge photocatalyst capable of transforming carbon dioxide into natural gas. Led by Professor In Soo-il from the Department of Energy Science & Engineering at DGIST, this innovative solution is detailed in the prestigious journal Applied Catalysis B: Environment and Energy.
In a world facing the dire consequences of global warming, the urgent need to reduce greenhouse gases cannot be overstated. By converting atmospheric carbon dioxide into valuable substances, such as natural gas, this photocatalytic technology offers a sustainable approach to combating climate change.
Utilizing solar energy and water, this environmentally friendly process not only addresses the pressing issue of carbon dioxide emissions but also provides a practical source of fuel for various applications, including heating, cooling, and transportation.
By combining cadmium selenide and titanium dioxide, the research team achieved remarkable efficiency in converting carbon dioxide into natural gas. Unlike traditional crystalline titanium dioxide, this new approach creates active sites for titanium trivalent cations, enhancing the overall performance of the photocatalyst.
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