The electrode of the new lithium battery uses a two-dimensional material called MXene, which is highly conductive. According to the research team, the new lithium battery may be able to achieve "near-instant" charging of electric vehicles in the future.

　　According to foreign media reports, researchers from Drexel University in the United States, majoring in materials science and engineering, and French and Israeli researchers have jointly designed a new lithium battery electrode. Perhaps the charging of electric vehicles in the future will only take a few seconds. It is reported that the new lithium battery electrode uses a two-dimensional material called MXene, which is highly conductive. According to the research team, the new lithium battery may be able to achieve "near-instant" charging of electric vehicles in the future.

　　The research team said that the new lithium battery electrodes may solve a major technical problem that has been plagued by the electric vehicle market for a long time. In an earlier study, the team focused on supercapacitors, which are energy storage devices for portable electronic products. Unfortunately, this device can only be used for rapid charging and discharging, and cannot store energy for a long time. Today, engineering researchers at Drexel University use MXene material, which combines the advantages and characteristics of supercapacitors and traditional large-capacity batteries.

　　 Drexel University in the United States stated that the research and development and application of this battery material is of great significance, which to a large extent solves a major technical problem that currently hinders the promotion of electric vehicles. The research team admits that the new lithium battery electrode materials and related technologies seem to be promising, but it is still uncertain about the actual situation after successful trial production and use in vehicles, but they said that once applied to vehicles and mobile phones, it will completely subvert the current use Battery.