Artificial leaf could charge up developing world
The first practical artificial leaf – composed of silicon, nickel and cobalt – can convert sunlight into chemical fuel, a milestone in the drive for sustainable energy that mimics the process of photosynthesis.
Unlike earlier devices, which used costly ingredients, the MIT-developed artificial leaf is made from inexpensive materials and uses low-cost engineering and manufacturing processes.
A sunlight collector sandwiched between two films generates oxygen and hydrogen gas. When dropped into a jar of water in the sunlight, the device bubbles away, releasing hydrogen that can be used in fuel cells to make electricity.
The self-contained units are an attractive solution for making fuel for electricity in remote places and the developing world, but current designs have relied on rare-earth metals such as platinum, and manufacturing processes are costly.
MIT researchers have created the first practical artificial leaf. Courtesy of American Chemical Society.
To make these devices more widely available, Daniel G. Nocera of MIT replaced the hydrogen-producing platinum catalyst with a less-expensive nickel-molybdenum-zinc compound. A cobalt film that generates oxygen gas was placed on the other side of the leaf.
“Considering that it is the 6 billion nonlegacy users [who] are driving the enormous increase in energy demand by midcentury, a research target of delivering solar energy to the poor with discoveries such as the artificial leaf provides global society its most direct path to a sustainable energy future,” Nocera said.
The research, which received support from the National Science Foundation and the Chesonis Family Foundation, appears in the American Chemical Society journal
Accounts of Chemical Research (
doi: 10.1021/ar2003013).
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