Carbon negative electrode material of lithium-ion battery with long cycle life and preparation method of carbon negative electrode material
A lithium-ion battery and negative electrode material technology, applied in battery electrodes, circuits, electrical components, etc., can solve the problems of natural graphite cycle life and low rate performance, degradation of battery cycle performance, difficulty in overcoming structural degradation, etc., and achieve excellent chemical stability Non-toxicity, less side effects, excellent structural stability
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Embodiment 1
[0017] Preheat the chemical vapor phase reaction furnace to 1200°C in an argon atmosphere, use ethylene as a raw material, and control the concentration of the raw material to 0.1mg / cm 3 , the reaction time is 5 hours, and the carbon microsphere precursor is prepared. First, the carbon microsphere precursor was heat-treated at 1400°C for 10 hours, the heating rate was 1°C / min, and the heat treatment atmosphere was a hydrogen-argon mixture containing 10% hydrogen. The carbon microsphere precursor that has undergone low-temperature heat treatment is heat-treated at 3000°C for 1 hour, the heating rate is 5°C / min, and the heat treatment atmosphere is argon, so that a multi-shell and carbon sheet with an average particle size of 800 nm can be obtained. The layer is a carbon microsphere material with a structure similar to concentric spheres. According to the test method of lithium-ion battery negative electrode materials in button batteries (active material powder, conductive agen...
Embodiment 2
[0021] Preheat the chemical vapor phase reaction furnace to 1300°C in an argon atmosphere, use coal tar as a raw material, and control the concentration of the raw material to 20mg / cm 3 , the reaction time is 2 hours, and the carbon microsphere precursor is prepared. First, the carbon microsphere precursor was heat-treated at 1200°C for 8 hours, the heating rate was 2°C / min, and the heat treatment atmosphere was argon. The carbon microsphere precursor that has undergone low-temperature heat treatment is heat-treated at 2600 ° C for 2 hours, the heating rate is 1 ° C / min, and the heat treatment atmosphere is argon, and the multi-shelled and carbon microspheres with an average particle size of 1 micron can be obtained. The sheet layer is a carbon microsphere material with a structure similar to that of concentric spheres. According to the test method of the lithium-ion half-battery in Example 1, the material of Example 2 has a reversible capacity of 300.0mAh / g after 100 times...
Embodiment 3
[0023] Preheat the chemical vapor phase reaction furnace to 900°C in an argon atmosphere, use pyridine as a raw material, and control the concentration of the raw material to 1.55mg / cm 3 , the reaction time is 3 hours, and the carbon microsphere precursor is prepared. First, the carbon microsphere precursor was heat-treated at 1200 °C for 5 hours, the heating rate was 1 °C / min, and the heat treatment atmosphere was nitrogen. The low-temperature heat-treated carbon microsphere precursor is heat-treated at 2800°C for 1 hour, the heating rate is 2°C / min, and the heat-treatment atmosphere is argon to obtain multi-shell and carbon microspheres with an average particle size of 2 microns. The carbon microsphere material with a sheet-like arrangement of concentric spheres, and its transmission microscope photos are as follows: figure 1 shown. According to the test method of the lithium-ion half-battery in Example 1, the material of Example 3 has a reversible capacity of 328.8mAh / g a...
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