Add to ORKGA series of electroactive spinel compounds, LiMn2CurO4 (0.1 x a 0.5), has been studied by crystallographic, spec-troscopic, and electrochemical methods and by electron microscopy. These LiMn2_Cu04 spinels are nearly identical in structure to cubic LiMn2O4 and successfully undergo reversible Li intercalation. The electrochemical data show a remark-able reversible electrochemical process at 4.9 V which is attributed to the oxidation of Cu2 to Cu. The inclusion of C
[[abstract]]The precursor of LiMn2O4 was calcined at 600°C for 10 h to form the semicrystallite LiM...
To improve the cycle performance of spinel LiMn2O4 as the cathode of 4-V-class lithium secondary bat...
The spinel LiMn2O4, whose electrochemical activity with Li was discovered in the early 1980s, was pu...
A series of electroactive spinel compounds, LiMn2CurO4 (0.1 x a 0.5), has been studied by crystallog...
A series of electroactive spinel compounds, LiMn{sub 2{minus}x}Cu{sub x}O{sub 4} (0.1 {le} x {le} 0....
Electrochemical data obtained from lithium cycling in LiCuMn2..O4 spinels (0.1 x 0.5) show a remar...
We show that the lithium atoms in the inverse spinel, LiNiVO4, can be electrochemically removed and ...
The spinel, lithium intercalation compound LiMn2O4 is prepared and studied using the techniques of a...
The electrochemical reactivity of CuTi 2S 4 and CuCr 2S 1 spinel samples toward Li was studied over ...
Using a new electrolyte composition, which is stable. against oxidation up to 5 V, the full electroc...
Transmission electron microscopy (TEM) measurements were performed on electrochemically partially de...
Spinel lithium manganese oxide, LiMn2O4, is beset with problems of capacity fade upon repeated cycl...
The mechanism of lithium intercalation in layered LiMnO2 has been investigated by combining data fro...
In this study, LiCr0.2V0.4Mn1.4O4 cathode active electrode materials were produced via a facile sol-...
A series of compounds Li1+yMn2-xMâ?² xO4 (xâ?¤0.1;yâ?¤0.02), have been synthesised by doping the par...
[[abstract]]The precursor of LiMn2O4 was calcined at 600°C for 10 h to form the semicrystallite LiM...
To improve the cycle performance of spinel LiMn2O4 as the cathode of 4-V-class lithium secondary bat...
The spinel LiMn2O4, whose electrochemical activity with Li was discovered in the early 1980s, was pu...
A series of electroactive spinel compounds, LiMn2CurO4 (0.1 x a 0.5), has been studied by crystallog...
A series of electroactive spinel compounds, LiMn{sub 2{minus}x}Cu{sub x}O{sub 4} (0.1 {le} x {le} 0....
Electrochemical data obtained from lithium cycling in LiCuMn2..O4 spinels (0.1 x 0.5) show a remar...
We show that the lithium atoms in the inverse spinel, LiNiVO4, can be electrochemically removed and ...
The spinel, lithium intercalation compound LiMn2O4 is prepared and studied using the techniques of a...
The electrochemical reactivity of CuTi 2S 4 and CuCr 2S 1 spinel samples toward Li was studied over ...
Using a new electrolyte composition, which is stable. against oxidation up to 5 V, the full electroc...
Transmission electron microscopy (TEM) measurements were performed on electrochemically partially de...
Spinel lithium manganese oxide, LiMn2O4, is beset with problems of capacity fade upon repeated cycl...
The mechanism of lithium intercalation in layered LiMnO2 has been investigated by combining data fro...
In this study, LiCr0.2V0.4Mn1.4O4 cathode active electrode materials were produced via a facile sol-...
A series of compounds Li1+yMn2-xMâ?² xO4 (xâ?¤0.1;yâ?¤0.02), have been synthesised by doping the par...
[[abstract]]The precursor of LiMn2O4 was calcined at 600°C for 10 h to form the semicrystallite LiM...
To improve the cycle performance of spinel LiMn2O4 as the cathode of 4-V-class lithium secondary bat...
The spinel LiMn2O4, whose electrochemical activity with Li was discovered in the early 1980s, was pu...