Can aerosol optical depth unlock the future of air quality monitoring and lung cancer prevention?
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2024Metadata
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Yu, H., Zahidi, I., Fai, C. M., Liang, D., & Madsen, D. Ø. (2024). Can aerosol optical depth unlock the future of air quality monitoring and lung cancer prevention? Environmental Sciences Europe, 36(1), Artikkel 56. https://doi.org/10.1186/s12302-024-00886-wAbstract
In a groundbreaking advance for sustainable energy, a recent study unveils a transformative approach to hydrogen production, signaling a major shift in renewable energy. This study integrates one-dimensional covalent organic frameworks (COFs) with the innovative concept of harvesting atmospheric water, marking a significant stride in the quest for cleaner energy sources. It stands as the first successful integration of Atmospheric Water Harvesting (AWH) with photocatalysis, as well as the inaugural application of COFs in the photocatalytic evolution of hydrogen from water vapor. It envisions a future where our atmosphere becomes a vital, untapped reservoir for clean energy, merging cutting-edge science with a profound commitment to environmental sustainability. This breakthrough challenges conventional energy paradigms and opens up exciting possibilities for a world striving towards ecological balance and energy innovation.