Images of tiny ion may help battery designers. (Lithium Sees the Light).Hidden within cell phones, laptops, and digital cameras, lithium-ion batteries increasingly power the world. For the first time, researchers have imaged individual lithium ions, an achievement that could lead to better battery designs. Researchers in the past few years have devised electron microscopes that can resolve most lightweight atoms and their charged counterparts, ions. Yet the lightest atoms--hydrogen, helium, and lithium--have remained out of sight. For this reason, scientists have had to infer the internal structure of materials in lithium-ion batteries by combining information from techniques such as X-ray diffraction and theories of how materials form. In these batteries, lithium ions diffuse in and out of the electrodes. "If you can see lithium at the atomic level, it's going to help us tremendously in understanding the way these materials work," comments Michael Thackeray, a battery researcher at Argonne National Laboratory Argonne National Laboratory, research center, based in Argonne, Ill., 27 mi (43 km) SW of downtown Chicago, with other facilities at the Idaho National Engineering Laboratory, 50 mi (80 km) W of Idaho Falls, Idaho. Founded in 1946 by the U.S. in Illinois. That, in turn, could lead to battery materials that produce more energy and can be recharged more times than can today's materials, says Yang Shao-Horn of the Massachusetts Institute of Technology Massachusetts Institute of Technology, at Cambridge; coeducational; chartered 1861, opened 1865 in Boston, moved 1916. It has long been recognized as an outstanding technological institute and its Sloan School of Management has notable programs in business, . In the July Nature Materials, Shao-Horn and her coworkers at Lawrence Berkeley National Laboratory Lawrence Berkeley National Laboratory and Lawrence Livermore National Laboratory, scientific research centers run by the Univ. of California, located in Berkeley, Calif., and Livermore, Calif., respectively. (LBL LBL - Lawrence Berkeley Laboratory, Berkeley, CA, USA. ) in California and the University of Bordeaux University of Bordeaux can refer to one or all of the four universities in Bordeaux, each of which covers a different field of study:
n. One that crisps, especially a compartment in a refrigerator used for storing vegetables and keeping them fresh. image with a resolution of 0.8 [Angstrom angstrom (ăng`strəm), abbr. Å, unit of length equal to 10−10 meter (0.0000000001 meter); it is used to measure the wavelengths of visible light and of other forms of electromagnetic radiation, such as ultraviolet ]. The reconstructed image reveals for the first time individual lithium ions in the material. The most significant revelations may lie ahead, says Shao-Horn. She and her colleagues now aim to modify their microscopy technique to image samples in which some of the lithium ions have been removed. So far, she says, the material has been too unstable for imaging when not fully filled with lithium. Imaging vacancies that could host lithium ions is important for designing better battery materials, concurs John Spence, who works at both Arizona State University Arizona State University, at Tempe; coeducational; opened 1886 as a normal school, became 1925 Tempe State Teachers College, renamed 1945 Arizona State College at Tempe. Its present name was adopted in 1958. in Tempe and LBL but is not involved in Shao-Horn's research. The effective resolution that Shao-Horn's group achieved opens the door for meeting another energy challenge. Says Spence, '"This throws down the gauntlet to image hydrogen for hydrogen-storage materials." Such images may contribute to use of hydrogen as a clean-burning fuel. |
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