@article{7317, abstract = {Lithium-metal oxides with a high formal Li2O content, such as Li5FeO4 (5Li2O•Fe2O3) and a Li2MnO3•LiFeO2 composite ({Li2O•MnO2}•{Li2O•Fe2O3}) have been explored as electrocatalysts for primary and rechargeable Li-O2 cells. Activation occurs predominantly by Li2O removal, either electrochemically or chemically by acid-treatment. Superior electrochemical behavior is obtained if activation occurs by acid-treatment; Li2MnO3•LiFeO2 catalysts provide 2516 mAh/g (carbon) corresponding to 931 mAh/g (electrocatalyst + carbon) during the initial discharge. The reaction is reasonably reversible during the early cycles. The approach has implications for designing electrocatalysts that participate through electrochemical Li2O extraction/reformation reactions, offering exceptionally high capacities.}, author = {Trahey, L. and Johnson, C. S. and Vaughey, J. T. and Kang, S.-H. and Hardwick, L. J. and Freunberger, Stefan Alexander and Bruce, P. G. and Thackeray, M. M.}, issn = {1099-0062}, journal = {Electrochemical and Solid-State Letters}, number = {5}, publisher = {The Electrochemical Society}, title = {{Activated Lithium-Metal-Oxides as catalytic electrodes for Li–O2 cells}}, doi = {10.1149/1.3555366}, volume = {14}, year = {2011}, }