Deep learning is transforming most areas of science and technology, including electron
microscopy. This review paper offers a practical perspective aimed at developers with …

We review the use of transmission electron microscopy (TEM) and associated techniques for
the analysis of beam-sensitive materials and complex, multiphase systems in-situ or close to …

In this study, microstructural parameters, such as lattice dimension, micro-strain and
dislocation density, of different neutron-irradiated graphite grades have been evaluated …

The microstructural evolution of highly ordered graphite during high temperature
carbonization of cellulose nanocrystals (CNC) was traced in the temperature range of 1000 …

Plastically anisotropic/layered solids are ubiquitous in nature and understanding how they
deform is crucial in geology, nuclear engineering, microelectronics, among other fields …

Understanding defect evolution and structural transformations constitutes a prominent
research frontier for ultimately controlling the electrochemical properties of advanced battery …

A vein structure, which becomes more pronounced with increasing ion dose, was found on
the surface of polycrystalline HOPG (highly oriented pyrolytic graphite) implanted by ex situ …

This study presents microstructural investigations of graphite precipitates found in cast irons.
Binary Fe–C, Fe–C–Sb and Fe–C–Ce alloys containing different graphite morphologies …

Ion irradiation has been observed to induce a macroscopic flattening and in-plane shrinkage
of graphene sheets without a complete loss of crystallinity. Electron diffraction studies …

Structural and chemical bonding changes in nuclear graphite have been investigated during
in-situ electron irradiation in a transmission electron microscope (TEM); electron beam …