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      Rechargeable LI2O2 electrode for lithium batteries.

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          Abstract

          Rechargeable lithium batteries represent one of the most important developments in energy storage for 100 years, with the potential to address the key problem of global warming. However, their ability to store energy is limited by the quantity of lithium that may be removed from and reinserted into the positive intercalation electrode, Li(x)CoO(2), 0.5 < x < 1 (corresponding to 140 mA.h g(-1) of charge storage). Abandoning the intercalation electrode and allowing Li to react directly with O(2) from the air at a porous electrode increases the theoretical charge storage by a remarkable 5-10 times! Here we demonstrate two essential prerequisites for the successful operation of a rechargeable Li/O(2) battery; that the Li(2)O(2) formed on discharging such an O(2) electrode is decomposed to Li and O(2) on charging (shown here by in situ mass spectrometry), with or without a catalyst, and that charge/discharge cycling is sustainable for many cycles.

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          Author and article information

          Journal
          J Am Chem Soc
          Journal of the American Chemical Society
          American Chemical Society (ACS)
          0002-7863
          0002-7863
          Feb 01 2006
          : 128
          : 4
          Affiliations
          [1 ] School of Chemistry, University of St. Andrews, North Haugh, Fife, UK
          Article
          10.1021/ja056811q
          16433559
          971b3764-3c09-462e-8c24-a4a9728fb571
          History

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