Unlike conventional solar systems, which are hampered by the sun’s fluctuations and require backup systems to even them out, ...

Researchers at Osaka Metropolitan University have developed an artificial photosynthesis system capable of producing solar ...

"This self-regulating behavior helps keep fuel production more stable throughout the day." ...

Researchers at Osaka Metropolitan University developed a self-regulating artificial photosynthesis system producing formic ...

Hydrogen fuel cells have long been floated as a potential platform for zero-emission vehicles, but problems with efficiency and storage have put up some roadblocks. Rather than using hydrogen in its ...

Scientists have developed an artificial photosynthesis system that essentially regulates itself, eliminating the need for batteries used in many current designs. The key innovation is an electrolyzer ...

For decades, scientists have pursued a technological equivalent of a leaf: a device capable of capturing sunlight and ...

Clean energy costs will be equal or less than fossil fuels by 2020, while renewable energy sources will meet 40 percent of global energy demand by 2040. But because renewable energy depends on the sun ...

New research shows that formic acid could be used as a safe, easy-to-transport source of hydrogen for fuel cells. Matthias Beller and his colleagues at the Leibniz Institute of Catalysis, in Rostock, ...

Held together by only one carbon atom, formic acid is the simplest carboxylic acid. The market for this chemical is relatively small as well—a fraction of the demand for organic acids such as ...

Dublin, July 30, 2024 (GLOBE NEWSWIRE) -- The "Formic Acid - Global Strategic Business Report" report has been added to ResearchAndMarkets.com's offering. The global market for Formic Acid is ...