Anode material of lithium iron phosphate battery
A technology of lithium iron phosphate and positive electrode materials, which is applied in the direction of battery electrodes, positive electrodes, secondary batteries, etc., can solve the problems of poor conductivity, hinder the promotion of lithium iron phosphate, and low stacking density, and achieve increased capacity and self-discharge The effect of high efficiency, perfect performance and strong conductivity
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Embodiment 1
[0024] A lithium iron phosphate lithium battery cathode material, comprising:
[0025] The positive active material is modified lithium iron phosphate doped with 0.1% titanium by mass, 0.2% magnesium by mass and 0.1% silver by mass; the preparation method of the positive active material is specifically:
[0026] 1) Using ferrous oxalate, lithium carbonate and ammonium dihydrogen phosphate as raw materials, the first lithium iron phosphate pre-synthesized by solid phase method at 673k;
[0027] 2) Divide the first lithium iron phosphate into two equal parts, put the first equal parts of the first lithium iron phosphate, magnesium oxalate and 0.1% polyvinyl alcohol by weight of the first lithium iron phosphate into agate In the ball milling jar, use ceramic grinding balls, and after ball milling for 8 hours, under the protection of nitrogen, keep the temperature at 480°C for 6 hours, and then naturally cool to room temperature to obtain the first prefabricated lithium iron phosp...
Embodiment 2
[0035] A lithium iron phosphate lithium battery cathode material, comprising:
[0036]The positive active material is modified lithium iron phosphate doped with 0.1% titanium by mass, 0.2% magnesium by mass and 0.1% silver by mass; the preparation method of the positive active material is specifically:
[0037] 1) Using ferrous oxalate, lithium carbonate and ammonium dihydrogen phosphate as raw materials, the first lithium iron phosphate pre-synthesized by solid phase method at 673k;
[0038] 2) Divide the first lithium iron phosphate into two equal parts, put the first equal parts of the first lithium iron phosphate, magnesium oxalate and 0.3% polyvinyl alcohol by weight of the first lithium iron phosphate into agate In the ball milling tank, select ceramic grinding balls, and after ball milling for 10 hours, under the protection of nitrogen, keep the temperature at 520°C for 8 hours, and then naturally cool to room temperature to obtain the first prefabricated lithium iron p...
Embodiment 3
[0046] A lithium iron phosphate lithium battery cathode material, comprising:
[0047] The positive active material is modified lithium iron phosphate doped with 0.1% titanium by mass, 0.2% magnesium by mass and 0.1% silver by mass; the preparation method of the positive active material is specifically:
[0048] 1) Using ferrous oxalate, lithium carbonate and ammonium dihydrogen phosphate as raw materials, the first lithium iron phosphate pre-synthesized by solid phase method at 673k;
[0049] 2) Divide the first lithium iron phosphate into two equal parts, put the first equal parts of the first lithium iron phosphate, magnesium oxalate and 0.2% polyvinyl alcohol by weight of the first lithium iron phosphate into agate In the ball milling tank, select ceramic grinding balls, and after ball milling for 9 hours, under the protection of nitrogen, keep the temperature at 500°C for 7 hours, and then naturally cool to room temperature to obtain the first prefabricated lithium iron p...
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