Since the breakthrough achieved in the research around material intercalating lithium,
almost a decade has passed before the commercialization of the first lithium‐ion battery …

Silicon (Si) is the most promising active anode material in lithium-ion batteries due to its high
lithiation/delithiation capacity, abundant availability and low discharge potential as …

Lithium‐ion battery cells with high‐energy density and good fast charging properties are
subject of current research. One approach to achieve high‐energy densities is the use of …

A comprehensive study on high temperature cycling (80° C) of industrial manufactured Li-
ion pouch cells (NMC-111/Graphite) filled with different electrolytes is introduced. Ageing …

Micron-sized silicon oxide (SiO x) has been regarded as a promising anode material for new-
generation lithium-ion batteries due to its high capacity and low cost. However, the distinct …

Abstract Silicon-Few Layer Graphene (Si-FLG) composite electrodes are investigated using
a scalable electrode manufacturing method. A comprehensive study on the electrochemical …

A lightweight, high-capacity negative electrode was developed by suspending carbon-
coated silicon monoxide (SiO/C) particles in a sponge-like matrix of carbon nanotubes …

Microscale silicon particles in lithium-ion battery anodes undergo large volume changes
during (de) lithiation, resulting in particle pulverization and surface area increase …

A silicon-graphene heterostructure provides optimal electrochemical performance as anode
nanomaterial in both half and full cells with a commercial NMC111 (LiNi1/3Mn1/3Co1/3O2) …

We have developed a proof of concept electrode design to covalently graft poly (methyl
methacrylate) brushes directly to silicon thin film electrodes via surface-initiated atom …