Since their inception, computational homogenization methods based on the fast Fourier
transform (FFT) have grown in popularity, establishing themselves as a powerful tool …

This open access book presents a thorough look at tortuosity and microstructure effects in
porous materials. The book delivers a comprehensive review of the subject, summarizing all …

Commercially used LiNi1/3Mn1/3Co1/3O2 (NMC111) in lithium-ion batteries mainly consists
of a large-grained nonporous active material powder prepared by coprecipitation. However …

Effective properties of functional materials crucially depend on their 3D microstructure. In this
paper, we investigate quantitative relationships between descriptors of two-phase …

Quantitative structure–property relationships are crucial for the understanding and prediction
of the physical properties of complex materials. For fluid flow in porous materials …

Electrolyte filling is a time‐critical step during battery manufacturing that also affects battery
performance. The underlying physical phenomena mainly occur on the pore scale and are …

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 …

Pit membranes between xylem vessels play a major role in angiosperm water transport. Yet,
their three‐dimensional (3D) structure as fibrous porous media remains unknown, largely …

We investigate numerically via finite element (FE) simulations and analytically the nonlinear
behavior of a soft matrix comprising a large volume fraction (up to 55%) of monodisperse …