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Recently, researchers at Northwestern University in the United States have created an excellent new material for batteries and supercapacitors to help improve the range and charging speed
of electric vehicles.
The material is called a "covalent organic framework" (COF), an organic crystal structure
with many pores suitable for storing energy.
The researchers claim that their material is stable to withstand 10,000 charge-discharge cycles
.
Its energy storage is 10 times that of non-modified COF electric energy, and the charging speed is increased by 10-15 times
.
In practical applications, batteries can store a large amount of energy under slow discharge, while supercapacitors, although they charge very quickly, can absorb very little
energy.
However, it is still unknown when this technology will be able to go to the consumer side
.
Recently, researchers at Northwestern University in the United States have created an excellent new material for batteries and supercapacitors to help improve the range and charging speed
of electric vehicles.
The material is called a "covalent organic framework" (COF), an organic crystal structure
with many pores suitable for storing energy.
The researchers claim that their material is stable to withstand 10,000 charge-discharge cycles
.
Its energy storage is 10 times that of non-modified COF electric energy, and the charging speed is increased by 10-15 times
.
In practical applications, batteries can store a large amount of energy under slow discharge, while supercapacitors, although they charge very quickly, can absorb very little
energy.
However, it is still unknown when this technology will be able to go to the consumer side
.
