With the depletion of global fossil fuels and the deterioration of environmental pollution,
develo** a new type of energy storage device has become increasingly important. In this …

Metallic Li has caught the attention of researchers studying future anodes for next-
generation batteries, owing to its attractive properties: high theoretical capacity, highly …

This is the first quantitative analysis of mechanical reliability of all-solid state batteries.
Mechanical degradation of the solid electrolyte (SE) is caused by intercalation-induced …

High-capacity electrodes in Li-ion batteries inevitably undergo a large volume deformation
originating from high diffusion-induced stresses during charging and discharging processes …

Novel silver/molybdenum bimetallic metal-organic framework (AgMo-MOF) was synthesized
using the solvo-hydrothermal method and then converted to Ag 2 MoO 4 nanoparticles by …

Constraint-induced stresses develop during Li-ion battery cycling, because anode and
cathode materials expand and contract as they intercalate or de-intercalate Li. We show in …

Herein, multifunctional Co 3 O 4 nanotubes (Co 3 O 4-T) are successfully constructed via a
low-cost and template-free route, which show a tubular structure with mesoporous and …

The rapidly increasing demand for energy storage has been consistently driving the
exploration of different materials for Li-ion batteries, where the olivine lithium-metal …

In the context of lithium-ion battery technology, LiNi x Mn y Co z O 2 (x≥ 0.8)(Ni-rich NMC) is
considered a promising cathode material for next-generation batteries due to its high energy …

The mechanical changes in active materials with large volume expansion such as silicon
and nickel not only affect the electrochemical performance of modern batteries but also pose …