In recent years, there has been significant interest in the development of two-dimensional
(2D) nanomaterials with unique physicochemical properties for various energy applications …

Intercalation materials are promising candidates for reversible energy storage and are, for
example, used as lithium-battery electrodes, hydrogen-storage compounds, and …

During the reversible insertion of ions, lattices in intercalation materials undergo structural
transformations. These lattice transformations generate misfit strains and volume changes …

The adoption of batteries across diverse applications requires electrode materials with a
wider range of performance metrics, such as cost, safety, and material availability. Along the …

We present a multiscale theoretical framework to investigate the interplay between diffusion
and finite lattice deformation in phase transformation materials. In this framework, we use the …