Since lithium-ion batteries (LIBs) have been substantially researched in recent years, they
now possess exceptional energy and power densities, making them the most suited energy …

Due to its uniquely high specific capacity and natural abundance, silicon (Si) anode for
lithium‐ion batteries (LIBs) has reaped intensive research from both academic and industrial …

To accelerate the commercial implementation of high-energy batteries, recent research
thrusts have turned to the practicality of Si-based electrodes. Although numerous …

With more and more mature applications of new energy and power systems, lithium-ion
batteries are bound to play an increasingly important role in the future. High specific energy …

The increasing demand for higher‐energy‐density batteries driven by advancements in
electric vehicles, hybrid electric vehicles, and portable electronic devices necessitates the …

Rechargeable lithium batteries have been widely regarded as a revolutionary technology to
store renewable energy sources and extensively researched in the recent several decades …

The electrode materials are the most critical content for lithium‐ion batteries (LIBs) with high
energy density for electric vehicles and portable electronics. Considering the high …

With the urgent market demand for high-energy-density batteries, the alloy-type or
conversion-type anodes with high specific capacity have gained increasing attention to …

Atomically thin materials (ATMs) with thicknesses in the atomic scale (typically< 5 nm) offer
inherent advantages of large specific surface areas, proper crystal lattice distortion …

Silicon oxides have been recognized as a promising family of anode materials for high-
energy lithium-ion batteries (LIBs) owing to their abundant reserve, low cost, environmental …