A graphene power battery with superior performance and preparation method thereof
A power battery and graphene technology, applied in the manufacture of electrolyte batteries, battery electrodes, secondary batteries, etc., can solve problems such as poor conductivity of lithium iron phosphate, decreased conductivity of positive and negative electrodes, and poor permeability of electrolyte
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Embodiment 1
[0031] A graphene ultra-low temperature fast charging power lithium battery, wherein, positive electrode active material: 3.6Kg lithium iron phosphate, 50g porous graphene powder, 2.2Kg nano boron nitride, positive electrode conductive agent: 20g graphene, 50 polyaniline, 180g Conductive agent SP, positive electrode binder: 4.8Kg of nitrogen-methylpyrrolidone solution of polyvinylidene fluoride with a solid content of 5%; negative electrode active material: 8.6Kg lithium titanate, 35g graphene powder, 55g nano-silicon, negative electrode conductive Agent: 340g conductive agent KS-6, negative electrode binder: 7.5Kg of nitrogen methyl pyrrolidone solution of polyvinylidene fluoride with a solid content of 5%. The preparation method of the battery comprises the following steps:
[0032]1) Preparation of positive electrode sheet: first prepare 4.8Kg of nitrogen methylpyrrolidone solution of polyvinylidene fluoride with a solid content of 5%, add 20g of graphene, 50g of polyanilin...
Embodiment 2
[0041] A graphene ultra-low temperature fast charging power lithium battery, wherein, positive electrode active material: 4.5Kg lithium iron phosphate, 55g porous graphene powder, 2.0Kg nano boron nitride, positive electrode conductive agent: 25g graphene, 55 polyaniline, 170g Conductive agent SP, positive electrode binder: 4.8Kg of nitrogen-methylpyrrolidone solution of polyvinylidene fluoride with a solid content of 5%; negative electrode active material: 8.8Kg lithium titanate, 40g graphene powder, 46g nano-silicon, negative electrode conductive Agent: 330g conductive agent KS-6, negative electrode binder: 7.5Kg of nitrogen methyl pyrrolidone solution of polyvinylidene fluoride with a solid content of 5%. The preparation method of the battery comprises the following steps:
[0042] 1) Preparation of positive electrode sheet: first prepare 4.8Kg of nitrogen-methylpyrrolidone solution of polyvinylidene fluoride with a solid content of 5%, add 25g of graphene, 55 polyaniline a...
Embodiment 3
[0051] A graphene ultra-low temperature fast charging power lithium battery, wherein, positive electrode active material: 4.5Kg lithium iron phosphate, 55g porous graphene powder, 2.0Kg nano boron nitride, positive electrode conductive agent: 25g graphene, 55 polyaniline, 170g Conductive agent SP, positive electrode binder: 4.8Kg of nitrogen-methylpyrrolidone solution of polyvinylidene fluoride with a solid content of 5%; negative electrode active material: 8.2Kg lithium titanate, 40g graphene powder, 46g nano-silicon, negative electrode conductive Agent: 100g superconducting carbon black, 500g flake graphite and 330g conductive agent KS-6, negative electrode binder: 7.5Kg of nitrogen methyl pyrrolidone solution of polyvinylidene fluoride with a solid content of 5%. The preparation method of the battery comprises the following steps:
[0052] 1) Preparation of positive electrode sheet: first prepare 4.8Kg of nitrogen-methylpyrrolidone solution of polyvinylidene fluoride with a...
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