LiFePO 4, as the most famous member of the family of olivine-type lithium transition metal
phosphates, is one of the promising candidates for the cathodes of lithium-ion batteries …

The ever-increasing demand for high-performance batteries has been driving the
fundamental understanding of the crystal/surface structural and electrochemical properties …

The cathode materials work as the host framework for both Li+ diffusion and electron
transport in Li‐ion batteries. The Li+ diffusion property is always the research focus, while …

Anions in the electrolyte are usually ignored in conventional" rocking-chair" batteries
because only cationic de-/intercalation is considered. An ingenious scheme combining LiMn …

One weakness of batteries is the rapid falloff in charge-storage capacity with increasing
charge/discharge rate. Rate performance is related to the timescales associated with …

A flexible composite solid electrolyte membrane consisting of inorganic solid particles (Li1.
3Al0. 3Ti1. 7 (PO4) 3), polyethylene oxide (PEO), and boronized polyethylene glycol (BPEG) …

Due to the severe volume variations during electrochemical processes, Si‐based anodes
suffer from poor cycling performance as the result of a collapsed conductive network. In this …

LiFePO4 (lithium iron phosphate (LFP)) is a promising cathode material due to its
environmental friendliness, high cycling performance, and safety characteristics. On the …

Abstract Two-dimensional (2D) MXenes are one of the leading members of materials
science due to their exceptional dispersion in water, metal-like conductivity, and promising …

Despite exhibiting high specific capacities, Si‐based anode materials suffer from poor cycle
life as their volume change leads to the collapse of conductive network within the electrode …