Add to ORKGInternational audienceX-ray amorphous manganese oxides were prepared by reduction of sodium permanganate by lithium iodide in aqueous medium (MnOx-I) and by decomposition of manganese carbonate at moderate temperature (MnOx-C). TEM showed that these materials are not amorphous, but nanostructured, with a prominent spinel substructure in MnOx-C. These materials intercalate lithium with capacities up to 200 mAh/g at first cycle (potential window 1.8-4.3 V) and 175 mAh/g at 100th cycle. Best performances for MnOx-C are obtained with cobalt doping. Potential electrochemical spectroscopy shows that the initial discharge induces a 2-phase transformation in MnOx-C phases, but not in MnOx-I ones. EXAFS and XANES confirm the participation of mangane...
Manganese Oxide has a very long history of being used as anode material in Lithium Ion Battery. Ther...
Lithium manganese oxides substituted with nickel or cobalt were characterized electrochemically in l...
Layered substituted lithium manganese oxides suitable for use as lithium ion battery electrodes may ...
International audienceX-ray amorphous manganese oxides were prepared by reduction of sodium permanga...
International audienceX-ray amorphous manganese oxides were prepared by reduction of sodium permanga...
International audienceX-ray amorphous manganese oxides were prepared by reduction of sodium permanga...
International audienceX-ray amorphous manganese oxides were prepared by reduction of sodium permanga...
International audienceX-ray amorphous manganese oxides were prepared by reduction of sodium permanga...
International audienceNew nanostructured manganese oxi-iodides were prepared by redox reaction of so...
International audienceNew nanostructured manganese oxi-iodides were prepared by redox reaction of so...
International audienceNew nanostructured manganese oxi-iodides were prepared by redox reaction of so...
International audienceNew nanostructured manganese oxi-iodides were prepared by redox reaction of so...
International audienceTwo new mixed manganese-cobalt oxides for lithium battery positive electrode m...
Nanorods of MnO2, Mn3O4, Mn2O3 and MnO are synthesized by hydrothermal reactions and subsequent anne...
Manganese Oxide has a very long history of being used as anode material in Lithium Ion Battery. Ther...
Manganese Oxide has a very long history of being used as anode material in Lithium Ion Battery. Ther...
Lithium manganese oxides substituted with nickel or cobalt were characterized electrochemically in l...
Layered substituted lithium manganese oxides suitable for use as lithium ion battery electrodes may ...
International audienceX-ray amorphous manganese oxides were prepared by reduction of sodium permanga...
International audienceX-ray amorphous manganese oxides were prepared by reduction of sodium permanga...
International audienceX-ray amorphous manganese oxides were prepared by reduction of sodium permanga...
International audienceX-ray amorphous manganese oxides were prepared by reduction of sodium permanga...
International audienceX-ray amorphous manganese oxides were prepared by reduction of sodium permanga...
International audienceNew nanostructured manganese oxi-iodides were prepared by redox reaction of so...
International audienceNew nanostructured manganese oxi-iodides were prepared by redox reaction of so...
International audienceNew nanostructured manganese oxi-iodides were prepared by redox reaction of so...
International audienceNew nanostructured manganese oxi-iodides were prepared by redox reaction of so...
International audienceTwo new mixed manganese-cobalt oxides for lithium battery positive electrode m...
Nanorods of MnO2, Mn3O4, Mn2O3 and MnO are synthesized by hydrothermal reactions and subsequent anne...
Manganese Oxide has a very long history of being used as anode material in Lithium Ion Battery. Ther...
Manganese Oxide has a very long history of being used as anode material in Lithium Ion Battery. Ther...
Lithium manganese oxides substituted with nickel or cobalt were characterized electrochemically in l...
Layered substituted lithium manganese oxides suitable for use as lithium ion battery electrodes may ...