As a black solid powder, the nickel content of this precursor is below 70 mol%.
Considering excellent performances of high-rate, long cycling life and high safety, it is mainly used in the energy stoage field.
It is a black solid powder which contains only two transition metal elements, Ni and Mn, thereby put "cobalt anxiety" leave behind.
As the next generation battery raw material to be mass produced, it possesses notable advantages of low cost and high safety.
Trace Al, W, Zr, Ca or other elements are doped to prepare quaternary precursors during the wet precipitation process, which are brownish black or yellowish green solid powders.
The quaternary precursors can achieve multi-dimensional balance of performance, cost and safety, and is mainly used in high-end electric vehicles.
NFM layered oxide is a black solid powder with the structure similar to that of lithium ternary cathode.
As one of the mainstream routes of sodium cathode materials, it demonstrates a high gram capacity and low cost, and is mainly used in energy storage and low-end passenger car field.
It is a black solid powder, composing of high specific capacity core (high nickel and low manganese) and high stability shell (low nickel and high manganese).
It possesses both advantages of high capacity and good cycle stability, thereby used in the fields of high capacity, high cycling, high safety ternary power battery, and solid state battery, etc.
As a yellowish brown solid powder, the nickel content of this precursor is higher than 80 mol%.
It can meet the requirements of higher specific capacity and energy density, further reduce the dependence on cobalt. As a new-generation high nickel precursor. it has been mass produced.
It is a black solid powder, dominated by the cheaper Mn element.
As one of the most promising next-generation cathode materials for industrialization, it possesses high specific capacity (up to 300mAh/g), low cost and high safety.
As a yellow green solid powder, the nickel content of this precursor is higher than 90 mol%.
With the advantages of ultra-high specific capacity and low cost, it is used in next-generation high specific energy power battery.
High mass activity and high cycling stability.
The raw materials of Proton exchange membrane fuel cell (PEMFC), which can be used in hydrogen fuel cell stacks, single cells, and membrane electrode (MEA) cathodes.
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