Batteries based on sodium superoxide and on potassium superoxide have recently been reported. However, there have been no reports of a battery based on lithium superoxide (LiO₂), despite much research into the lithium–oxygen (Li–O₂) battery because of its potential high energy density. Several studies of Li–O₂ batteries have found evidence of LiO₂ being formed as one component of the discharge product along with lithium peroxide (Li₂O₂). In addition, theoretical calculations have indicated that some forms of LiO₂ may have a long lifetime. These studies also suggest that it might be possible to form LiO₂ alone for use in a battery. However, solid LiO₂ has been difficult to synthesize in pure form18 because it is thermodynamically unstable with respect to disproportionation, giving Li₂O₂. Here we show that crystalline LiO₂ can be stabilized in a Li–O₂ battery by using a suitable graphene-based cathode. Various characterization techniques reveal no evidence for the presence of Li₂O₂. A novel templating growth mechanism involving the use of iridium nanoparticles on the cathode surface may be responsible for the growth of crystalline LiO₂. Our results demonstrate that the LiO₂ formed in the Li–O₂ battery is stable enough for the battery to be repeatedly charged and discharged with a very low charge potential (about 3.2 volts). We anticipate that this discovery will lead to methods of synthesizing and stabilizing LiO₂, which could open the way to high-energy-density batteries based on LiO₂ as well as to other possible uses of this compound, such as oxygen storage.

Nature (2016) doi:10.1038/nature16484
Received 01 October 2014 Accepted 13 November 2015 Published online 11 January 2016

http://www.nature.com/nature/journal/vaop/ncurrent/full/nature16484.html

中文报道（稳定的超氧化锂带来更强大的电池）：http://www.x-mol.com/news/1762