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Recently, according to British media, the Belgian Intercollegiate Microelectronics Center has developed an innovative solid-state lithium-ion battery, which can reach an energy density
of 200 watt-hours per liter in two hours of charging.
The Intercollegiate Center for Microelectronics is the world's leading research and innovation center for nanoelectronics, energy and digital technologies, and a partner
of EnergyVille, a research institution.
According to the report, the battery represents a milestone in the development roadmap, surpassing liquid lithium-ion batteries to reach the level
of 0.
5 hours full 1,000 watt-hours per liter by 2024.
Following such a clear performance improvement route, the battery technology of the Intercollegiate Microelectronics Center will become a competitor in the future fast-charging long-range electric vehicle battery industry
.
The future of mobility is largely electric, powered
by fast-charging, safe and compact batteries.
Researchers at the Intercollegiate Center for Microelectronics are developing next-generation batteries that replace liquid electrolytes with solid electrolytes, thereby increasing the energy density
of batteries.
Recently, the Intercollegiate Microelectronics Center has developed a solid-state nanocomposite electrolyte with outstanding conductivity, up to 10 millisiemens per centimeter, and is expected to be further improved
in the future.
The Intercollegiate Center for Microelectronics has used the new electrolyte to create a prototype
battery.
This battery prototype achieves an energy density of 200 watt-hours per liter and a charging speed of two hours
.
Recently, according to British media, the Belgian Intercollegiate Microelectronics Center has developed an innovative solid-state lithium-ion battery, which can reach an energy density
of 200 watt-hours per liter in two hours of charging.
The Intercollegiate Center for Microelectronics is the world's leading research and innovation center for nanoelectronics, energy and digital technologies, and a partner
of EnergyVille, a research institution.
According to the report, the battery represents a milestone in the development roadmap, surpassing liquid lithium-ion batteries to reach the level
of 0.
5 hours full 1,000 watt-hours per liter by 2024.
Following such a clear performance improvement route, the battery technology of the Intercollegiate Microelectronics Center will become a competitor in the future fast-charging long-range electric vehicle battery industry
.
The future of mobility is largely electric, powered
by fast-charging, safe and compact batteries.
Researchers at the Intercollegiate Center for Microelectronics are developing next-generation batteries that replace liquid electrolytes with solid electrolytes, thereby increasing the energy density
of batteries.
Recently, the Intercollegiate Microelectronics Center has developed a solid-state nanocomposite electrolyte with outstanding conductivity, up to 10 millisiemens per centimeter, and is expected to be further improved
in the future.
The Intercollegiate Center for Microelectronics has used the new electrolyte to create a prototype
battery.
This battery prototype achieves an energy density of 200 watt-hours per liter and a charging speed of two hours
.
