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Anode material with lithium ferrous phosphate being embedded in stereoscopic reticular electric conductor and preparation method thereof

A lithium iron phosphate, three-dimensional mesh technology, applied in the direction of battery electrodes, circuits, electrical components, etc., can solve the problem that the overall performance of the battery is not optimal, and achieve the effects of superior processing performance, long cycle life and superior overall performance.

Active Publication Date: 2013-12-11
JIANGSU LITHITECH CO LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0003] In addition, the conduction of the current lithium iron phosphate material basically adopts the mechanism of carbon coating, and the overall performance of the battery of the lithium iron phosphate cathode material prepared by carbon coating is not optimal.

Method used

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  • Anode material with lithium ferrous phosphate being embedded in stereoscopic reticular electric conductor and preparation method thereof
  • Anode material with lithium ferrous phosphate being embedded in stereoscopic reticular electric conductor and preparation method thereof
  • Anode material with lithium ferrous phosphate being embedded in stereoscopic reticular electric conductor and preparation method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0036] Get 70 grams of solution containing 6.8 grams of lithium bicarbonate and mix and stir with 7.1 grams of phosphorus pentoxide, add 21.8 grams of ferrous sulfate with a purity of 99.5% in the above solution and mix and stir, and mix with 0.05 grams of highly conductive silver The slurry is fully mixed, sheared, and dispersed, and the above homogeneous solution is evaporated and crystallized into pellets in a crystallizer with a high-speed stirrer. The stirring speed is 2800 rpm and the temperature is 110°C to make precursor spherical particles of about 15 microns. Get wherein 6 grams of precursor spherical particles and move into the quartz boat in the tube furnace, feed high-purity nitrogen in the tube furnace, feed acetylene gas when the furnace temperature rises to 600 °C, the flow rate of acetylene gas is 20 ml / min, Keep warm for 5 hours. Raise the temperature of the furnace to 800°C and keep it warm for 16 hours. After cooling to room temperature, samples are taken f...

Embodiment 2

[0038]Dissolve 10.39g of lithium dihydrogen phosphate in 200mL of deionized water, add 17.99g of ferrous oxalate, and then add 2g of polyvinyl alcohol, mix thoroughly in a grinder, disperse and grind for 3 hours, and place in a crystallizer with a high-speed stirrer For pelletizing, the stirring speed is 2800 rpm and the temperature is 120° C. to obtain a spherical precursor with an apparent particle size of 10-20 μm. Move the precursor body into a tube furnace, feed high-purity nitrogen into the tube furnace, and feed ethylene gas when the furnace temperature rises to 600 °C, the flow rate of ethylene gas is 15 mL·min-1, and the heating time is 3 hours, and the furnace temperature is raised to 800°C and heat preservation for 8 hours, after cooling to room temperature, samples were taken to measure the charge and discharge performance of the material, the average capacity (0.2C) of 100 charge and discharge was 149mAh / g. Observing the morphology of the above-mentioned materials...

Embodiment 3

[0040] Dissolve 4.20 g of lithium hydroxide monohydrate in 200 mL of distilled water, stir and mix with 11.53 g of 85% phosphoric acid, add 7.99 g of ferric oxide, then add 2 g of sucrose, mix, grind, shear and disperse into a uniform body, and The above-mentioned emulsion is sprayed and pelletized with a spray pelletizer. The inlet temperature of the spray solidification pelletizer is 350° C., and the outlet temperature is 90° C. to make micron-sized precursor spherical particles. Take the above-mentioned precursor and move it into the quartz boat in the tube furnace, pass high-purity nitrogen into the tube furnace, raise the furnace temperature to 550°C and keep it for 3 hours, then raise the furnace temperature to 800°C and keep it for 8 hours, then cool to room temperature After sampling, use a scanning electron microscope to observe the morphology of the spherical positive electrode material in which the above-mentioned nano-lithium iron phosphate grains are embedded in a ...

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Abstract

The invention relates to an anode material with lithium ferrous phosphate being embedded in a stereoscopic reticular electric conductor and a preparation method thereof. The anode material is a stereoscopic reticular conducting polyporous spherical particle, and the stereoscopic reticular conducting polyporous spherical particle is formed by embedding a nano lithium ferrous phosphate crystal particle in the electric conductor with a stereoscopic reticular structure. The preparation method of the anode material comprises the following steps: (1), mixing, grinding and dispersing a lithium source compound, a phosphorus source compound, an iron source compound and a conducting raw material to form a homogeneous solution or an emulsion; (2) granulating the homogeneous solution or the emulsion to prepare a spherical precursor including a nano particle; and (3) carrying out high-temperature pyrolysis on the spherical precursor in an inert atmosphere and / or a reducing atmosphere to form a stereoscopic reticular electric conductor skeleton, and then carrying out high-temperature crystallization to form the anode material with the nano lithium ferrous phosphate being embedded in a stereoscopic reticular electric conductor structure. The anode material provided by the invention has the characteristics of high charging / discharging specific capacity, long cycle life, stable preparation batch, excellent processing performance, good conductivity and safety, and the like.

Description

technical field [0001] The invention relates to a positive electrode material in which nano-lithium ferrous phosphate crystal grains are embedded in a three-dimensional mesh conductor and a preparation method thereof, and belongs to the technical field of preparation of nano-inorganic functional materials. technical background [0002] In recent years, with the continuous development and progress of lithium-ion batteries and the rapidly growing market demand in high-energy energy storage devices, electric vehicles and other fields, materials such as lithium manganate, lithium iron phosphate, and multi-element lithium have been widely used as cathode materials in high-voltage batteries. Energy lithium battery. Lithium-ion batteries that use lithium iron phosphate (LiFePO4) as the positive electrode of the battery not only have a long life, but also are stable at high temperatures, ensuring the safety of the battery, and are non-toxic and environmentally friendly. During the ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01M4/58H01M4/136H01M4/1397
CPCY02E60/122Y02E60/10
Inventor 马培华王连亮
Owner JIANGSU LITHITECH CO LTD
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