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Home > Press > Toward a low-cost 'artificial leaf' that produces clean hydrogen fuel

Scientists are getting closer to copying plants' ability to convert sunlight into fuel.
Credit: Purestock/Thinkstock
Scientists are getting closer to copying plants' ability to convert sunlight into fuel.

Credit: Purestock/Thinkstock

Abstract:
For years, scientists have been pursuing "artificial leaf" technology, a green approach to making hydrogen fuel that copies plants' ability to convert sunlight into a form of energy they can use. Now, one team reports progress toward a stand-alone system that lends itself to large-scale, low-cost production. They describe their nanowire mesh design in the journal ACS Nano.

Toward a low-cost 'artificial leaf' that produces clean hydrogen fuel

Washington, DC | Posted on December 3rd, 2014

Peidong Yang, Bin Liu and colleagues note that harnessing sunlight to split water and harvest hydrogen is one of the most intriguing ways to achieve clean energy. Automakers have started introducing hydrogen fuel cell vehicles, which only emit water when driven. But making hydrogen, which mostly comes from natural gas, requires electricity from conventional carbon dioxide-emitting power plants. Producing hydrogen at low cost from water using the clean energy from the sun would make this form of energy, which could also power homes and businesses, far more environmentally friendly. Building on a decade of work in this area, Yang's team has taken one more step toward this goal.

The researchers took a page from the paper industry, using one of its processes to make a flat mesh out of light-absorbing semiconductor nanowires that, when immersed in water and exposed to sunlight, produces hydrogen gas. The scientists say that the technique could allow their technology to be scaled up at low cost. Although boosting efficiency remains a challenge, their approach -- unlike other artificial leaf systems -- is free-standing and doesn't require any additional wires or other external devices that would add to the environmental footprint.

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The authors acknowledge funding from the U.S. Department of Energy and the Singapore-Berkeley Research Initiative for Sustainable Energy.

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About American Chemical Society
The American Chemical Society is a nonprofit organization chartered by the U.S. Congress. With more than 161,000 members, ACS is the world's largest scientific society and a global leader in providing access to chemistry-related research through its multiple databases, peer-reviewed journals and scientific conferences. Its main offices are in Washington, D.C., and Columbus, Ohio.

For more information, please click here

Contacts:
Michael Bernstein

202-872-6042

Peidong Yang, Ph.D.
University of California, Berkeley
and Lawrence Berkeley National Laboratory
Berkeley, CA 94720


or

Bin Liu, Ph.D.
University of California, Berkeley
Berkeley, CA 94720
and the School of Chemical and Biomedical Engineering
Nanyang Technological University
Singapore 637459

Copyright © American Chemical Society

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