Li‐rich Mn‐rich layered oxides (LRLO) are considered promising cathode materials for high
energy density storage because of their very high capacities that owe to the reversible redox …

Fossil fuel consumption raises the world's economy by causing severe ecological effects.
Thus, contemplating an energy gadget with environmentally friendly behavior would be a …

Li-rich Mn-based layered cathode materials are subjected to unsatisfactory cycle stability,
rate performance and voltage fading from the undesirable structure evolution during cycling …

Herein we report the investigation on the use of guar gum and two of its derivatives as LIB
positive electrodes binders. These polymers are electrochemically stable within the …

Li-rich layered oxide materials are promising cathode materials for lithium ion batteries
because of their high capacity and low cost. Nevertheless, the lack of a stable surface …

Lithium batteries for UPS, portable electronics and electrical vehicles rely on high-energy
cathodes. Li-rich manganese-rich oxide (xLi2MnO3·(1− x) LiMO2, M= transition metals) is …

This study reports the investigation of several compounds as electrolyte additives for Li [Li
0.2 Mn 0.56 Ni 0.16 Co 0.08] O 2 (aka lithium rich NMC) cathode material. Among the …

Capacity fading of Li-rich cathodes in the cycling process is mainly caused by the
irreversible side reactions at the interface of electrode and electrolyte by reason of the lack …

Li-rich layered oxide materials possess high voltage and high specific capacity, which
makes them attractive cathode candidates for lithium-ion batteries. However, they still suffer …

With the establishment of the internet of things (IoT) and the rapid development of advanced
microsystems, there is a growing demand to develop electrochemical capacitors (ECs) to …