Metal-ion batteries are key enablers in today's transition from fossil fuels to renewable
energy for a better planet with ingeniously designed materials being the technology driver. A …

Rechargeable multivalent metal‐ion batteries (MMIBs) have garnered a surge of attention as
competitive candidates for large‐scale energy storage applications owing to their high …

The advent of nanotechnology has hurtled the discovery and development of nanostructured
materials with stellar chemical and physical functionalities in a bid to address issues in …

The development of novel electrode materials with good electrochemical performances is
necessary for the expanded and varied applications of lithium-ion batteries, and this …

The pursuit of cathodes with a high capacity is remarkably driven by the ever increasing
demand of high-energy lithium ion batteries in electronics and transportation. In this regard …

Development of a cathode material with safety, low cost, high energy and power densities,
long life and excellent abuse tolerance for Li-ion batteries is critical for hybrid electric …

Single‐electron transfer, low alkali metal contents, and large‐molecular masses limit the
capacity of cathodes. This study uses a cost‐effective and light‐molecular‐mass …

The search for superior‐energy‐density electrode materials for rechargeable batteries is
prompted by the continuously growing demand for new electric vehicles and large energy …

Lithium transition metal orthosilicates such as Li 2 FeSiO 4 (LFS) have been recognized as
promising cathode materials for application in Li-ion batteries because of their high …

Olivines are naturally occurring silicates consisting of isolated (SiO4) 4–tetrahedra linked
through M 1O6 and M 2O6 octahedra. In this study, we report the structural and crystal …