Raman scattering (RS) and Fourier transform infrared (FTIR) spectroscopy have been
applied to the study of local structure of lithium manganese oxides. We report the analysis of …

The lithium-ion battery generates a voltage of more than 3.5 V by a combination of a cathode
material and carbonaceous anode material, in which the lithium ion reversibly inserts and …

Many cathode materials such as LiMnO2 can be highly hygroscopic and thus, introduce
considerable water contamination into Li batteries. Water reacts with the Li anode, and this …

Charge–discharge properties of a new type of all solid-state lithium cell are presented,
which comprises a conductive nano-sulfur composite (NSC) cathode, composite polymer …

This work presents the vibrational features of lithiated manganese oxides used as positive
electrode materials in lithium-ion batteries. Vibrational spectroscopies (Raman and FTIR) …

One of the most interesting and challenging goals in lithium battery technology, especially
for electric vehicle applications, is the use of a metallic lithium anode (negative electrode) …

A synthesized γ-MnO2 octahedral molecular sieve was characterized and used to catalyze
solvent-free atmospheric oxidation of toluene with molecular oxygen. The γ-MnO2 showed …

We report the structural properties of Li0. 3MnO2 positive electrode materials for secondary
lithium batteries. The crystal structure examined by X-ray diffraction corresponds to a new …

Phase equilibria involving LiMn 2 O 4-, Li 2 MnO 3-, LiMnO 2-, Mn 3 O 4-, and MnO-base
solid solutions were studied with varied temperature and partial oxygen pressure. The P …

Non-native structures have more open structure with less stable bulk formation energy
compared to their native structure and hence, non-native structured cathodes are expected …