Fast charging is considered to be a key requirement for widespread economic success of
electric vehicles. Current lithium‐ion batteries (LIBs) offer high energy density enabling …

The ever‐growing portable electronics and electric vehicle markets heavily influence the
technological revolution of lithium batteries (LBs) toward higher energy densities for longer …

The industrialization of solid-state batteries (SSBs) with high energy density and high safety
is a growth point. The scale-up application toward using SSBs is mainly restrained by batch …

In recent decades, extensive nanomaterials and related techniques have been proposed to
achieve high capacities surpassing conventional battery electrodes. Nevertheless, most of …

Deposition of Lithium metal on anodes contributes significantly to ageing of Li-ion cells.
Lithium deposition is connected not only to a drastic limitation of life-time, but also to fast …

Advanced 3D carbon‐based electrodes have the potential to significantly enhance the
energy‐power density of lithium ion batteries and sodium ion batteries, due to their …

With over 30% global land coverage, the forest is one of nature's most generous gifts to
human beings, providing shelters and materials for all living beings. Apart from being …

Investigations on the fast capacity loss of Lithium-ion batteries (LIBs) have highlighted a rich
field of mechanical phenomena occurring during charging/discharging cycles, to name only …

Lithium ion battery performance at high charge/discharge rates is largely determined by the
ionic resistivity of an electrode and separator which are filled with electrolyte. Key to …

Increasing the areal capacity or electrode thickness in lithium ion batteries is one possible
means to increase pack level energy density while simultaneously lowering cost. The …