Gas eaters: These man-made crystals, less than one millimeter long, can capture up to 80 times their volume in carbon dioxide.
Credit: Courtesy of Yaghi Research Group
Crystals could capture greenhouse gases released by power plants.
It's possible today to chemically capture carbon dioxide emitted by smokestacks. But the process is expensive and energy intensive, and it can inflate the cost of electricity produced from coal by 80 to 90 percent.
A new material could reduce that cost significantly. A group led by Omar Yaghi, a chemist at University of California, Los Angeles, combined organic molecules and metal atoms to form highly porous crystals whose structure resembles that of industrial materials called zeolites. A liter of the UCLA crystals stores up to 80 liters of carbon dioxide. Yaghi's materials, which can be custom-made with different pore sizes and internal structures, have an electrostatic attraction to carbon dioxide, selectively trapping molecules of the gas inside their pores. The carbon dioxide can be released by a mere drop in pressure. Then it could be compressed and stored underground indefinitely, never entering the atmosphere.
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