Advanced experimental and numerical approaches are being developed to capture the
localization of plasticity at the nanometer scale as a function of the multiscale and …

Lithium dendrite growth in inorganic solid-state electrolytes acts as a main stumbling block
for the commercial development of all-solid-state lithium batteries. Indeed, Li dendrites often …

The importance of comprehensive multiscale characterisation in advancing our
understanding of engineering materials is undeniable but remains a challenging pursuit …

Material deformation during nanoimprinting of aluminum (Al), copper (Cu), and gold (Au)
was explored through molecular dynamics simulations. A comparative understanding of the …

The structures, strain fields, and defect distributions in solid materials underlie the
mechanical and physical properties across numerous applications. Many modern …

X-ray topography is a powerful method for analyzing crystal defects and strain in crystalline
materials non-destructively. However, conventional X-ray topography uses simple X-ray …

The subsurface dynamics of dislocations are essential to many properties of bulk crystalline
materials. However, it is challenging to characterize a bulk crystal by conventional …

Dark-field X-ray microscopy (DFXM) is a full-field imaging technique that non-destructively
maps the structure and local strain inside deeply embedded crystalline elements in three …

Dislocation patterning and self-organization during plastic deformation are associated with
work hardening, but the exact mechanisms remain elusive. This is partly because studies of …

Mechanical properties in crystals are determined by the arrangement of 1D line defects,
termed dislocations. Recently, Dark field X-ray Microscopy (DFXM) has emerged as a new …