The increasing demands of energy storage require the significant improvement of current Li‐
ion battery electrode materials and the development of advanced electrode materials. Thus …

Although one of the most mature battery technologies, lithium‐ion batteries still have many
aspects that have not reached the desired requirements, such as energy density, current …

Rechargeable lithium‐based batteries generally exhibit gradual capacity losses resulting in
decreasing energy and power densities. For negative electrode materials, the capacity …

With technological advancements in electrochemical energy storage systems increasing at a
spectacular rate, batteries equipped with a lithium anode hold the key towards unlocking …

In this work we explore how an electrolyte additive (fluorinated ethylene carbonate–FEC)
mediates the thickness and composition of the solid electrolyte interphase formed over a …

Significant capacity losses are generally seen for batteries containing high-capacity lithium
alloy forming anode materials such as silicon, tin and aluminium. These losses are generally …

Solid state batteries have attracted significant attention within the battery community over the
last decade, due to the feasibility of developing a new generation of rechargeable Li …

Prelithiation of silicon/graphite-based composite anodes is a promising strategy to limit Li-
ion battery capacity loss over long cycling. We report on the spontaneous-corrosion-driven …

Operando neutron reflectometry measurements were carried out to study the insertion of
lithium into amorphous silicon film electrodes during cyclic voltammetry (CV) experiments at …

Li‐ion batteries are the essential energy‐storage building blocks of modern society.
However, producing ultra‐high electrochemical performance in safe and sustainable …