Graphite, commonly including artificial graphite and natural graphite (NG), possesses a
relatively high theoretical capacity of 372 mA hg–1 and appropriate lithiation/de‐lithiation …

A significant amount of battery research and development is underway, both in academia
and industry, to meet the demand for electric vehicle applications. When it comes to …

Major aspects related to lithium deposition in lithium-ion and lithium metal secondary
batteries are reviewed. For lithium-ion batteries with carbonaceous anode, lithium …

Understanding the behavior of lithium plating at low temperatures is crucial for optimizing
charging protocols, and assuring safe and durable use of lithium-ion batteries. In this work …

Today, with the massive application of lithium ion batteries (LIBs) in the portable devices and
electric vehicles, to supply the active materials with high-performances and then to recycle …

Electrolyte leakage is one of the typical faults that lead to battery failure, and its failure
mechanism is still ambiguous. Therefore, it is crucial to investigate the experimental method …

The research on the electrodes of Li-ion batteries aims to increase the energy density and
the power density, improve the calendar and the cycling life, without sacrificing the safety …

The recycling of spent graphite anode is often discarded due to its low added value and
strict separation procedures. However, if the graphite (about 10%) contained in spent lithium …

Spent carbon cathode (SCC), a hazardous solid waste generated from the primary
aluminium industry, is successfully purified by a graphitization process to eliminate the …

This paper reported a facile microwave-assisted process to modify spent graphite (SG)
powders for their re-utilization as LIBs anodes. The SG powders were treated by a simple …