Preparation method for lithium-rich manganese-based positive electrode material with controllable appearance and dimensions
A lithium-rich cathode material, lithium-rich manganese-based technology, applied in the direction of positive electrode, battery electrode, active material electrode, etc., can solve the problems of insufficient rate performance, low first coulomb efficiency, poor cycle performance, etc., and achieve excellent rate performance. , Wide applicability, environment-friendly effect
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Embodiment 1
[0039] (1) First, add the soluble transition metal manganese acetate, nickel acetate, and cobalt acetate into the mixed solvent of water, ethanol and ethylene glycol with a volume ratio of 1:3:1 at a molar ratio of 4:1:1 to prepare a total A homogeneous solution A with a transition metal ion concentration of 0.4mol / L; then add a certain amount of CTAB to the solution and stir evenly, wherein the molar ratio of surfactant to total metal ions is 0.5:1;
[0040] (2) soluble sodium oxalate that the amount of total metal ions is 2 times is dissolved in water, ethanol and ethylene glycol mixed solvent (the three are mixed in equal volume) and is formulated into solution B, wherein the volume ratio of solution B and solution A is 1:1;
[0041] (3) Add solution B prepared in step (2) dropwise to solution A at a rate of 1 mL / min, react for 2 h under sealed conditions, after the reaction is completed, filter the resulting product and wash it repeatedly with deionized water and ethanol, ...
Embodiment 2
[0046] (1) First, add the soluble transition metal manganese chloride, nickel chloride, and cobalt chloride into the mixed solvent of water, ethanol and ethylene glycol with a volume ratio of 3:13:1 at a molar ratio of 4:1:1, Prepare a homogeneous solution A with a total transition metal ion concentration of 0.1mol / L; then add a certain amount of SDBS to the solution and stir evenly, wherein the molar ratio of surfactant to total metal ions is 1:1.
[0047] (2) Sodium hydrogen oxalate of 1.5 times of the amount of total metal ion substances is dissolved in water, ethanol and ethylene glycol mixed solvent (the three are mixed in equal volume) and is formulated into solution B, wherein the volume ratio of solution B and solution A is 1:1;
[0048] (3) Add solution B prepared in step (2) dropwise to solution A at a rate of 3 mL / min, and react for 6 h under sealed conditions. After the reaction is completed, the resulting product is filtered and washed repeatedly with deionized wa...
Embodiment 3
[0053] (1) First, add the soluble transition metal manganese chloride, nickel nitrate, and cobalt chloride into the mixed solvent of water and ethylene glycol with a volume ratio of 3:5 at a molar ratio of 4:1:1 to prepare a total transition metal A homogeneous solution A with an ion concentration of 0.5 mol / L; then add a certain amount of CTAB to the solution and stir evenly, wherein the molar ratio of surfactant to total metal ions is 0.75:1.
[0054] (2) soluble sodium oxalate that the amount of total metal ions is 2 times is dissolved in water, ethanol and ethylene glycol mixed solvent (the three are mixed in equal volume) and is formulated into solution B, wherein the volume ratio of solution B and solution A is 1:1;
[0055] (3) Add solution B prepared in step (2) dropwise to solution A at a rate of 10mL / min per drop, and react for 1h under sealed conditions. After the reaction is completed, filter the resulting product and repeat with deionized water and ethanol. Wash ...
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