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Artificial Leaf converts sunlight and water into hydrogen and oxygen via nickel and cobalt catalysts, storing gases in a fuel cell for electricity; an MIT breakthrough in affordable, renewable, off-grid energy.
At a Glance
A silicon cell that splits water into hydrogen and oxygen using nickel-cobalt catalysts for affordable on-site power.
- Silicon photoelectrode with nickel and cobalt catalysts
- Splits water to H2 and O2 under sunlight
- Stores gases for later use in a fuel cell
- Inexpensive materials; long operational stability
An MIT chemist says he's created an advanced solar cell - essentially an artificial leaf that can mimic photosynthesis, the process by which plants breathe and produce power.
"A practical artificial leaf has been one of the holy grails of science for decades, alongside explorations of virus-based power in other fields," Daniel Nocera, a Massachusetts Institute of Technology professor of chemistry and energy, said in a release.
"We believe we have done it. The artificial leaf shows particular promise as an inexpensive source of electricity for homes of the poor in developing countries. Our goal is to make each home its own power station and advance energy self-sufficiency for families," he said.
Nocera unveiled his leaf at the National Meeting of the American Chemical Society in California.
About the size of a very thin playing card, the silicon solar cell uses electronics and catalysts to accelerate chemical reactions to convert sunlight and water into electricity.
The cell is placed in a gallon of water in full sun, where it splits the water into hydrogen and oxygen. The hydrogen and oxygen gases are then stored in a fuel cell to address renewable energy storage challenges for homes, which uses the two elements to produce electricity.
The artificial leaf is not a new concept. John Turner of the U.S. National Renewable Energy Laboratory in Colorado created the first one more than 10 years ago. But it used rare, expensive metals and had a lifespan of barely one day.
Nocera said his leaf is made of inexpensive materials that are widely available, including catalysts made of nickel and cobalt, alongside progress in fuel cell design for better integration. In a lab experiment, he showed that his leaf can operate continuously for at least 45 hours without a drop in activity.
"One can envision villages in India and Africa not long from now purchasing an affordable basic power system based on this technology," he said.
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