Method for preparing lithium iron phosphate composite material for lithium cells
A lithium iron phosphate and composite material technology, applied in battery electrodes, circuits, electrical components, etc., can solve problems such as insufficient purity and insufficient carbon coating, achieve high conductivity, solve poor electrical conductivity, and improve electrical conductivity.
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Embodiment 1
[0015] 1) 1.26 grams of lithium hydroxide (LiOH.H 2 (2, 0.03 mole) is dissolved in 100 milliliters of deionized water and is mixed with the lithium hydroxide solution that concentration is 0.3mol / L, adds 20 milligrams of graphene oxides, after stirring and dispersing, adds 0.99 gram of phosphoric acid (H 3 PO 4 , 99%, 0.01 moles) and 2.78 grams of ferrous sulfate (FeSO 4 ·7H 2 O, 0.01 mole), form a mixed solution;
[0016] 2) Put the mixed solution in a stainless steel reaction kettle lined with a polytetrafluoroethylene tank, fill it with argon and seal it with a cover; control the temperature in the stainless steel reaction kettle at 180° C., and react for 4 hours.
[0017] 3) Cool the reaction kettle to normal temperature naturally, then pour out the reaction solution, and obtain nano-powder after filtering the reaction solution; sequentially wash the nano-powder with ethanol and deionized water and then vacuum-dry to obtain lithium iron phosphate / graphene oxide composit...
Embodiment 2
[0020] 1) 3.78 grams of lithium hydroxide (LiOH.H 2 (2, 0.09 mole) is dissolved in 100 milliliters of deionized waters and is mixed with concentration and is the lithium hydroxide solution of 0.9mol / L, adds 90 milligrams of graphene oxides, after stirring and dispersing, adds 2.97 grams of phosphoric acid (H 3 PO 4 , 99%, 0.03 moles) and 8.34 grams of ferrous sulfate (FeSO 4 ·7H 2 0,0.03 moles), form a mixed solution;
[0021] 2) Put the mixed solution in a stainless steel reaction kettle lined with a polytetrafluoroethylene tank, fill it with argon and seal it with a cover; control the temperature in the stainless steel reaction kettle at 220° C., and react for 1 hour.
[0022] 3) Cool the reaction kettle to normal temperature naturally, then pour out the reaction solution, and obtain nano-powder after filtering the reaction solution; sequentially wash the nano-powder with ethanol and deionized water and then vacuum-dry to obtain lithium iron phosphate / graphene oxide compo...
Embodiment 3
[0025] 1) Dissolving 4.14 grams of lithium nitrate (0.06 moles) in 100 milliliters of deionized water to prepare a concentration of lithium nitrate solution of 0.6mol / L, adding 60 mg of graphene oxide, stirring and dispersing, adding 1.98 grams of phosphoric acid (H 3 PO 4 , 99%, 0.02 moles) and 3.48 grams of ferrous acetate (Fe(C 2 h 3 o 2 ) 2 , 0.02 moles), forming a mixed solution;
[0026] 2) Put the mixed solution in a stainless steel reaction kettle lined with a polytetrafluoroethylene tank, fill it with argon and seal it with a cover; control the temperature in the stainless steel reaction kettle at 200° C., and react for 2 hours.
[0027] 3) Cool the reaction kettle to normal temperature naturally, then pour out the reaction solution, and obtain nano-powder after filtering the reaction solution; sequentially wash the nano-powder with ethanol and deionized water and then vacuum-dry to obtain lithium iron phosphate / graphene oxide composite Material.
[0028] 4) Pla...
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