Method for recycling waste lithium iron phosphate positive electrode material and applying recycled waste lithium iron phosphate positive electrode material to nickel-iron battery
A technology of lithium iron phosphate and positive electrode materials, which is applied in the direction of nickel storage batteries, battery electrodes, battery recycling, etc., can solve the problem of completely re-repairing the electrochemical activity of positive electrode materials, and the properties of recycled materials are very different, which is difficult for the inventor to realize etc. to achieve excellent electrochemical activity and cycle reversibility, easy large-scale industrial production, and low recycling cost
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Embodiment 1
[0024] Preparation of lithium iron phosphate-based composite material: Soak the lithium iron phosphate positive electrode sheet separated from the waste lithium-ion battery in a sodium hydroxide solution with a molar concentration of 0.2mol / L for 20 minutes, rinse in deionized water for 10 minutes, Then, under a nitrogen atmosphere, calcined at a high temperature of 450° C. for 2 hours to separate the positive electrode active material from the aluminum foil, dry, grind, and sieve to obtain a pretreated lithium iron phosphate material; take 1000 grams of recovered lithium iron phosphate material, Dissolve 100 grams of ferric nitrate in deionized water to form a saturated solution of iron salt, add the saturated solution of iron salt to the continuously stirred pretreated lithium iron phosphate material in the form of spray, and mix well; After being treated at a high temperature of 600°C for 2 hours under protection, it was cooled, pulverized, and sieved to obtain a lithium iro...
Embodiment 2
[0028]Preparation of lithium iron phosphate-based composite material: Soak the lithium iron phosphate positive electrode sheet separated from the waste lithium-ion battery in a sodium hydroxide solution with a molar concentration of 0.05mol / L for 15 minutes, rinse in deionized water for 15 minutes, Then, under a nitrogen atmosphere, calcined at 550°C for 1.5 hours to separate the positive electrode active material from the aluminum foil, dry, grind, and sieve to obtain the pretreated lithium iron phosphate material; take 1000 grams of the recovered lithium iron phosphate material, 200 grams of ferrous sulfate are dissolved in deionized water to form a saturated iron salt solution, and the saturated iron salt solution is added to the continuously stirred pretreated lithium iron phosphate material in the form of a spray, and mixed uniformly; After being treated at a high temperature of 700° C. for 1 hour under nitrogen protection, the lithium iron phosphate-based composite materi...
Embodiment 3
[0032] Preparation of lithium iron phosphate-based composite material: Soak the lithium iron phosphate positive electrode sheet separated from the waste lithium-ion battery in a sodium hydroxide solution with a molar concentration of 0.1mol / L for 30 minutes, rinse in deionized water for 20 minutes, Then, under a nitrogen atmosphere, calcined at 500°C for 1 hour to separate the positive electrode active material from the aluminum foil, dry, grind, and sieve to obtain the pretreated lithium iron phosphate material; take 1000 grams of the recovered lithium iron phosphate material, 300 grams of ferrous acetate are dissolved in deionized water to form a saturated iron salt solution, and the saturated iron salt solution is added to the continuously stirred pretreated lithium iron phosphate material in the form of a spray, and mixed uniformly; After high temperature treatment at 600° C. for 2 hours under nitrogen protection, the lithium iron phosphate-based composite material was obta...
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