Silicon-oxygen negative electrode material and preparation method thereof, negative electrode plate and secondary battery

A technology of negative electrode material and negative electrode sheet, applied in the field of negative electrode sheet and secondary battery, silicon-oxygen negative electrode material and its preparation, can solve the problems of low initial efficiency, unstable SEI and short cycle life of lithium battery, and improve the transmission power. The effect of improving the dynamic performance and improving the cycle life

Active Publication Date: 2022-01-14
浙江锂威能源科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the silicon material will produce a large volume change (up to 300%) during the charging and discharging process, which will cause SEI instability, lithium pulverization, and weakening of the contact between active materials and between active materials and conductive agents. A series of problems eventually lead to problems such as low first efficiency, short cycle life and poor safety performance of lithium batteries, which have become the biggest obstacle restricting the wide application of silicon materials in lithium batteries

Method used

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preparation example Construction

[0023] The first aspect of the present invention is to provide a method for preparing a silicon-oxygen negative electrode material, comprising the following steps:

[0024] S1. Add the silicone material to an alkaline solution with a pH value of 8 to 9 to disperse, add dopamine hydrochloride to continue the dispersion, wash and centrifuge, and dry to obtain silicone dopamine nanoparticles; sinter the silicone dopamine nanoparticles to obtain Silicon Oxygen Carbon Nanoparticles;

[0025] S2. Mix and stir the silicon oxygen carbon nanoparticles and the titanium source, heat to 70-90°C and maintain for 0.1-1h, cool, wash and centrifuge, and dry at 70-90°C for 6-12h to obtain titanium silicon oxygen carbon nanoparticles ;

[0026] S3. Dissolve the titanium silicon oxygen carbon nanoparticles in water, ultrasonically disperse them, then add dopamine hydrochloride to continue dissolving and dispersing, then add a strong alkaline substance to stir, wash and centrifuge, and dry at 70...

Embodiment 1

[0048] A method for preparing a silicon-oxygen negative electrode material, comprising the following steps:

[0049] S1. Add 0.6 g of tris hydroxymethyl aminomethane into 490 mL of deionized water and disperse it completely. After being uniformly dispersed, slowly add a hydrochloric acid solution with a concentration of 0.1 M and mix evenly. Adjust the pH value to 8.5 to obtain a Tris-HCl solution; 0.2g of SiO with D50 of 3~6μm x (0x @Carbon Nanoparticles;

[0050] S2, 0.5g of the SiO x @Carbon nanoparticles and 0.5g tetrabutyl titanate are fully stirred, heated to 80°C and maintained for 0.5h, naturally cooled to room temperature, washed with deionized water and centrifuged, dried at 80°C for 8h to obtain SiO x @C@TiO 2 ;

[0051] S3, 10g SiO x @C@TiO 2 Dissolve in 200mL deionized water, ultrasonically disperse for 30~60min, then add 0.4g dopamine hydrochloride to continue dissolving and dispersing, then add 0.25g trishydroxymethylaminomethane and stir for 5~30min, wash...

Embodiment 2

[0053] The difference from Example 1 is that in the preparation of step S1, 0.4 g of dopamine hydrochloride was added, that is, the mass ratio of silicon-oxygen material to dopamine hydrochloride was 0.5:1.

[0054] The rest are the same as in Embodiment 1, and will not be repeated here.

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Abstract

The invention provides a silicon-oxygen negative electrode material and a preparation method thereof, a negative electrode plate and a secondary battery. The preparation method comprises the steps of S1, adding a silicon-oxygen material into an alkaline solution with the pH value of 8-9 for dispersion, adding dopamine hydrochloride for continuous dispersion, washing, centrifuging and drying to obtain silicon-oxygen dopamine nanoparticles, and sintering the silicon-oxygen dopamine nanoparticles to obtain silicon-oxygen carbon nanoparticles; S2, mixing and stirring the silicon-oxygen carbon nanoparticles and a titanium source, heating, cooling, washing, centrifuging and drying to obtain titanium-silicon-oxygen carbon nanoparticles; and S3, dissolving the titanium-silicon-oxygen carbon nanoparticles in water, carrying out ultrasonic dispersion, then adding dopamine hydrochloride, continuing to dissolve and disperse, then adding a strongly alkaline substance, stirring, washing, centrifuging, and drying to obtain the dopamine modified silicon-oxygen negative electrode material. Compared with the prior art, the obtained negative electrode material has the advantages that the problem of volume expansion of the current silicon material in the charge-discharge process is solved, the structural stability of the silicon material in the charge-discharge process is ensured, and various properties of the battery are improved.

Description

technical field [0001] The invention relates to the field of secondary batteries, in particular to a silicon-oxygen negative electrode material, a preparation method thereof, a negative electrode sheet and a secondary battery. Background technique [0002] Lithium-ion batteries have attracted much attention due to their advantages such as high energy density, long cycle life, environmental friendliness, and no memory effect. They are widely used in 3C digital, automotive and other fields. As a negative electrode material, graphite has a theoretical gram capacity of only 372 mAh / g, which is increasingly unable to meet people's needs for high-energy-density batteries, especially with the advent of the 5G era. [0003] Silicon material has higher theoretical gram capacity (~4200 mAh / g) and low discharge voltage (~0.5 V vs Li / Li + ), considered to be one of the most promising anode materials to replace graphite. However, the silicon material will produce a large volume change ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): H01M4/62H01M4/48H01M4/131H01M10/0525B82Y30/00
CPCH01M4/628H01M4/624H01M4/483H01M4/131H01M10/0525B82Y30/00H01M2004/027H01M2004/021Y02E60/10
Inventor 刘鹤
Owner 浙江锂威能源科技有限公司
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