Increasing demand for sustainable battery technologies has necessitated substantive global
research efforts towards delivering improvements in terms of both, the underlying battery …

State‐of‐the‐art scanning probe microscopy (SPM) methods as applied to energy
conversion and storage devices, specifically lithium‐ion batteries, are reviewed with an …

Energy storage and conversion systems are an integral component of emerging green
technologies, including mobile electronic devices, automotive, and storage components of …

Although lithium, and other alkali ion, batteries are widely utilized and studied, many of the
chemical and mechanical processes that underpin the materials within, and drive their …

Spatially resolved characterization of electrode surfaces or electrode–electrolyte interfaces
is of fundamental interest in battery research to unravel the complex underlying …

With the importance of Li-ion and emerging alternative batteries to our electric future,
predicting new sustainable materials, electrolytes, and complete cells that safely provide …

In situ transmission electron microscopy (TEM) research has enabled better understanding
of various battery chemistries (Li-ion, Li–S, metal–O 2, Li, and Na metal based, etc.), which …

With an ever-increasing demand for clean energy, rechargeable batteries have undergone
significant development, owing to their high energy density, power density, safety, and …

Lithium-ion batteries are a leading candidate for electric vehicle and smart grid applications.
However, further optimizations of the energy/power density, coulombic efficiency and cycle …

Electron microscopy (EM), specifically in situ, is a powerful analytical and characterisation
technique that is widely used to study electrode materials for battery applications. Significant …