Mechanochemical degradation processes such as the fracture of cathode particles play a
major role in limiting the service life of advanced lithium-ion batteries (LIBs). In order to help …

The increasing demands of energy storage require the significant improvement of current Li‐
ion battery electrode materials and the development of advanced electrode materials. Thus …

Rechargeable lithium-ion batteries with high energy density that can be safely charged and
discharged at high rates are desirable for electrified transportation and other applications …

The maximum power output and minimum charging time of a lithium-ion battery depend on
both ionic and electronic transport. Ionic diffusion within the electrochemically active …

The nickel-rich layered oxide LiNi0. 8Mn0. 1Co0. 1O2 (NMC811) is a promising future
cathode material for lithium-ion batteries in electric vehicles due to its high specific energy …

Rechargeable battery technologies have ignited major breakthroughs in contemporary
society, including but not limited to revolutions in transportation, electronics, and grid energy …

Lithium-ion batteries, simply known as lithium batteries, are distinct among high energy
density charge-storage devices. The power delivery of batteries depends upon the …

Lithium-ion battery (LIB) technology is the most attractive technology for energy storage
systems in today's market. However, further improvements and optimizations are still …

Capacity fading has limited commercial layered Li-ion battery electrodes to< 70% of their
theoretical capacity. Higher capacities can be achieved initially by charging to higher …

There is a growing demand for energy storage, for intermittent renewable energy such as
solar and wind power, for transportation, and for the myriad portable electronic devices. By …