Accurately quantifying the architecture of lithium ion electrode particles in 3D is critical to
understanding sub-particle lithium transport, rate limitations, and degradation mechanisms …

Accurately capturing the architecture of single lithium-ion electrode particles is necessary for
understanding their performance limitations and degradation mechanisms through multi …

There is a constant need for improvement of lithium-ion batteries (LIB), in particular,
charge/discharge time, capacity, and safety to fulfil the increasing performance …

The performance and degradation of layered cathode materials for lithium-ion batteries
depend on their morphological, surface, and crystallographic properties. A comprehensive …

Electrochemical and mechanical properties of lithium‐ion battery materials are heavily
dependent on their 3D microstructure characteristics. A quantitative understanding of the …

The demand for lithium ion batteries (LIBs) in the market has gradually risen, with production
increasing and expected to be boosted through the massive emergence of gigafactories. To …

The microstructure of anodes in lithium-ion batteries has a strong influence on their
electrochemical performance and degradation effects. Thus, optimizing the morphology with …

The microstructure of a composite electrode determines how individual battery particles are
charged and discharged in a lithium-ion battery. It is a frontier challenge to experimentally …

Probing the depths of battery heterogeneity | Nature Nanotechnology Skip to main content
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Uniform intercalation is desired to enable next-generation Li-ion batteries. While we expect
nonuniformity in materials undergoing a phase change, single-phase intercalation materials …