The quandary in producing and using hydrogen is that it’s the most common element in the universe and the oldest, having been formed within a micro-second of the Big Bang. Despite that, it’s always associated with other materials, and to use pure hydrogen usually requires extracting from the material in which it’s found. Water is the most common source for hydrogen, but as noted before, getting hydrogen out of water is harder than it looks. As shown in earlier blog, various techniques have been tried to make this extraction, some seemingly close to providing usable quantities at reasonable prices. Dr. Daniel Nocera of MIT and later Harvard used a two-catalyst system to pull oxygen and hydrogen from water. State University of New York at Buffalo researchers dropped nano-sized particles of silicon in water, with resulting bubbles of hydrogen escaping in large enough quantities to power portable devices. Although the Alka-Seltzer-like reaction seems to have promise, Elena Rozhkova, a scientist at …
Turning Over a New Leaf at JCAP
The blog has covered Professor Daniel Nocera’s “artificial leaf,” a means by which a flat panel in water and exposed to sunlight would generate clean water and hydrogen. But that promising development has been set aside by the startup company Catalytix that attempted commercial development of the leaf for now. Instead, the company is now pursuing the design of a practical low-cost flow battery for grid storage. Researchers at Berkeley’s Joint Center for Artificial Photosynthesis (JCAP), though, may have found a different approach to the artificial leaf that will overcome many shortcomings in its predecessors. Gary Moore, a chemist and principal investigator with Berkeley Lab’s Physical Biosciences Division, found that in his artificial leaf, “nearly 90-percent of the electrons generated by a hybrid material designed to store solar energy in hydrogen are being stored in the target hydrogen molecules.” In fact, JCAP’s main concern is capturing sunlight and turning it to some form of fuel, exactly what a leaf does …