Preparation technology capable of improving cycle performance and electrical conductivity of high-nickel positive electrode material
A cathode material and preparation technology, applied in the field of cathode materials for lithium-ion batteries, can solve problems such as poor battery rate performance, decreased cycle performance, and reduced material capacity, and achieve shortened sintering time, reduced gas consumption, and reduced residual alkali content Effect
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Embodiment 1
[0033] A preparation process for improving the cycle performance and conductivity of high-nickel cathode materials,
[0034] Based on the high-temperature sintering furnace 5, a porcelain boat 1 is provided inside the high-temperature sintering furnace 5, and a corundum tube 7 is provided on the outer cover of the porcelain boat 1, and an ozone channel with a valve and an oxygen gas channel are provided in parallel at the air inlet of the corundum tube 7. channel, the ozone channel is also provided with an ozone generator 2, and the gas outlet of the corundum tube 7 is provided with an exhaust absorption device 6,
[0035] Described preparation process comprises the steps:
[0036] S1, the high-nickel cathode material precursor Ni 0.8 co 0.1 mn 0.1 (OH) 2 and lithium salt LiOH·H 2 O is mixed evenly according to the molar ratio of 1:1.05 according to the molar ratio, and the evenly mixed mixture is placed in the porcelain boat 1, then the porcelain boat 1 is put into the h...
Embodiment 2~5
[0046] On the basis of Example 1, in Examples 2 to 5, the number of times that the ozone gas is introduced is changed to 1 time, 2 times, 4 times, and 5 times respectively, without changing the time of each time the ozone gas is introduced, that is, a total of ozone gas is introduced. Gas 20min, 40min, 80min, 100min. The cycle performance of the button battery assembled with the high-nickel cathode material obtained under different conditions is shown in Table 1 below (the charge and discharge current density is 100mA / g), and the influence of the time of ozone introduction on the battery cycle performance is discussed.
[0047] Table 1: The influence of the time of passing ozone on the cycle performance of the battery
[0048]
[0049] It can be seen from Examples 2-5 that sintering with ozone for a period of time can improve the cycle performance of the material, and the optimum time for sintering is about 80 minutes.
Embodiment 6~9
[0051] On the basis of Example 1, only the carbon dioxide plasma treatment time was changed, and the carbon dioxide plasma treatment time in Examples 6-9 were 10 min, 20 min, 30 min, and 50 min, respectively. The cycle performance of button batteries assembled with high-nickel cathode materials obtained under different conditions is shown in Table 2 (charge and discharge current density is 100mA / g), and the influence of carbon dioxide plasma treatment time on battery cycle stability was discussed.
[0052] Table 2: Effect of carbon dioxide plasma treatment time on battery cycle stability
[0053]
[0054] It can be seen from Examples 6-9 that the carbon dioxide plasma treatment can improve the initial discharge capacity and cycle performance, but if the treatment time is too long, the material will be damaged, and the cycle stability and capacity will decrease.
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