International audienceA new borate compound LiFe0.5Co0.5BO3 has been successfully synthesized for the first time by a multiple-step process. This compound delivers a very interesting first discharge capacity of 120 mA h g-1 at C/20 rate without in situ carbon coating. © The Royal Society of Chemistry
International audienceLiMBO3 (M = Fe, Co, Mn) has been identified as an interesting new cathode mate...
Carbon-coated LiFeBO3 has been successfully synthesized by solid state reaction method at 750 °C und...
International audienceA complete solid solution of m-Li(Mn1-xCox)BO3 has been successfully synthesiz...
International audienceA new borate compound LiFe0.5Co0.5BO3 has been successfully synthesized for th...
Borate chemistry offers attractive features for iron based polyanionic compounds. For battery applic...
International audienceLiMBO3 (M = Fe, Co, Mn) has been identified as an interesting new cathode mate...
Carbon-coated LiFeBO3 has been successfully synthesized by solid state reaction method at 750 °C und...
International audienceA complete solid solution of m-Li(Mn1-xCox)BO3 has been successfully synthesiz...
International audienceA new borate compound LiFe0.5Co0.5BO3 has been successfully synthesized for th...
Borate chemistry offers attractive features for iron based polyanionic compounds. For battery applic...
International audienceLiMBO3 (M = Fe, Co, Mn) has been identified as an interesting new cathode mate...
Carbon-coated LiFeBO3 has been successfully synthesized by solid state reaction method at 750 °C und...
International audienceA complete solid solution of m-Li(Mn1-xCox)BO3 has been successfully synthesiz...
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