Method for preparing lithium ionic battery anode material spherical LiFePO4 /C
A lithium-ion battery and cathode material technology, applied in the field of energy materials, can solve problems such as high cost and complicated preparation process, and achieve the effect of improving conductivity, simple process flow, and high-current electrochemical performance
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Embodiment 1
[0031] Embodiment 1. takes by weighing 400g Fe 2 o 3 , 660.3g (NH 4 ) 2 HPO 4 , 185.93g LiCO 3 , 39.25g conductive carbon black and 142.6g sucrose, slowly add mass concentration in the polyacrylic acid thickener aqueous solution of 20%, heat ball mill and stir mixed solution, form uniform suspension, the obtained suspension is sprayed with air flow Drying in the dryer adopts a co-current drying method, and the atomization device adopts a double-flow nozzle. Use a peristaltic pump to feed the material, the speed is 10-20mL / min, the gas flow rate of the nozzle is controlled by the pressure of the compressed air, atomization is generated at about 0.1Mpa, the temperature of the air inlet is controlled at 300°C, the outlet is at 100°C, and the outlet air passes through a Stage vortex separation and venting. The powder obtained by spray drying was heat-treated at 800 °C for 15 hours under the protection of inert gas to obtain spherical LiFePO 4 / C product. The measured tap d...
Embodiment 2
[0032] Embodiment 2. Take by weighing 400g Fe 2 o 3 , 519.8g LiH 2 PO 4 , 23.55g conductive carbon black and 150g glucose, slowly add the mass concentration in the polyethylene glycol thickener aqueous solution of 30%, heat the ball mill and stir the mixed solution to form a uniform suspension, the obtained suspension is obtained by air flow The spray dryer is used for drying, adopting the co-current drying method, and the atomization device adopts a double-flow nozzle. Use a peristaltic pump to feed the material, the speed is 10-20mL / min, the gas flow rate of the nozzle is controlled by the pressure of the compressed air, atomization is generated at about 0.1Mpa, the temperature of the air inlet is controlled at 300°C, the outlet is at 100°C, and the outlet air passes through a Stage vortex separation and venting. The powder obtained by spray drying was heat-treated at 700 °C for 20 hours under the protection of inert gas to obtain spherical LiFePO 4 / C product. The mea...
Embodiment 3
[0033] Embodiment 3. Take by weighing 400g Fe 2 o 3 , 575.2g NH 4 h 2 PO 4 , 510gCH 3 COOLi·2H 2 0, 7.85g conductive carbon black and 142.6g sucrose, slow adding mass concentration is in the adipic acid and polyvinyl alcohol mixed thickening agent aqueous solution of 5%, heat ball mill and stir mixed solution, form uniform suspension, obtained The suspension is dried with an air-flow spray dryer, using a co-current drying method, and the atomization device adopts a double-flow nozzle. Use a peristaltic pump to feed the material, the speed is 10-20mL / min, the gas flow rate of the nozzle is controlled by the pressure of the compressed air, atomization is generated at about 0.1Mpa, the temperature of the air inlet is controlled at 300°C, the outlet is at 100°C, and the outlet air passes through a Stage vortex separation and venting. The powder obtained by spray drying was heat-treated at 900 °C for 8 hours under the protection of inert gas to obtain spherical LiFePO 4 / C ...
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