Effect of the ZnNiyMn2–yO4(0 ≤ y ≤ 1) spinel composition on electrochemical lithium insertion

Members of the spinel solid solution series \(\mathrm{ZnFe}_{y} \mathrm{Al}_{2-y} \mathrm{O}_{4}(y=\) \(0,0.2,0.4,0.6,1.0,1.5\), and 2 ) were synthesized by direct solid state reaction of the simple metal oxides in air at \(1400 \mathrm{~K}\). Two aliquots of the single-phase spinels obtained for ea

The electrochemical study of LiCr III y Mn III 1!y Mn IV O 4 compounds, 04y41, between 3.5 and 5.4 V vs Li metal, shows that the Cr substitution is beneficial to the overall performances (capacity, specific energy, and cyclability) for y40.62, and that y"0.25 gives the best results. For y'0.62, the

Electrochemical and x-ray diffraction measurements have been performed on two lithium deficient lithium manganese oxide phases, namely Li,,,~Mn,O, and Lip,csMntO,. These materials were prepared by a chemical oxidative treatment of the parent LiMn,O, spmel phase in acidic conditions. The results are

Use of nickel-containing LiMn 2 O 4 up to 20 at.% as an insertion electrode in lithium cells combined with preliminary acid treatment results in improved cycling performance. An increase in the average oxidation state of manganese, a decrease in the Li/Mn ratio, partial H ؉ /Li ; exchange, and a dec