Scanning transmission electron microscopy (STEM) has emerged as a uniquely powerful
tool for structural and functional imaging of materials on the atomic level. Driven by …

In the last few years, electron microscopy has experienced a new methodological paradigm
aimed to fix the bottlenecks and overcome the challenges of its analytical workflow. Machine …

Colloidal lead halide perovskite nanocrystals are of interest as photoluminescent quantum
dots (QDs) whose properties depend on the size and shape. They are normally synthesized …

Semiconductor quantum dots have long been considered artificial atoms, but despite the
overarching analogies in the strong energy-level quantization and the single-photon …

Li-rich cathode materials are potential candidates for next-generation Li-ion batteries.
However, they exhibit a large voltage hysteresis on the first charge/discharge cycle, which …

In conventional intercalation cathodes, alkali metal ions can move in and out of a layered
material with the charge being compensated for by reversible reduction and oxidation of the …

Characterizing magnetic structures down to atomic dimensions is central to the design and
control of nanoscale magnetism in materials and devices. However, real-space visualization …

Layered sodium transition metal oxides with the P2 structure, eg Na2/3 [Ni1/3Mn2/3] O2, are
regarded as candidates for Na-ion battery cathodes. On charging, extraction of Na …

Ferroics, especially ferromagnets, can form complex topological spin structures such as
vortices and skyrmions, when subjected to particular electrical and mechanical boundary …

Scanning transmission electron microscopy (STEM) data with atomic resolution can contain
a large amount of information about the structure of a crystalline material. Often, this …