Preparation method of a novel lithium-sulfur battery diaphragm material

A lithium-sulfur battery and diaphragm material technology, applied in the field of material chemistry, can solve the problems of unstable electrochemical performance of batteries, difficulty in sulfur activation, complex experiments, etc., to facilitate the transmission of electrons, avoid uneven transmission, and uniform pore structure Effect

Active Publication Date: 2022-03-25
INT ACAD OF OPTOELECTRONICS AT ZHAOQING SOUTH CHINA NORMAL UNIV
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AI Technical Summary

Problems solved by technology

The shuttle effect reduces the utilization of sulfur electrode active materials
At the same time due to Li 2 S and Li 2 S 2 It cannot be dissolved in the electrolyte and deposited on the surface of the lithium anode, which further reduces the performance of the lithium-sulfur battery
The conductivity of elemental sulfur is very poor, and the conductivity at room temperature is low (5×10-30S cm -1 ), due to the absence of ionic sulfur, it is difficult to activate sulfur as a cathode material, and the lithium sulfide generated by the battery electrode during the reaction will dissolve in the electrolyte, resulting in a shuttle effect (or shuttle effect), thus causing lithium-sulfur Loss of battery active material and reduced service life
The final product of the electrode reaction is Li 2 The conductivity of S is also poor, and it will be deposited on the sulfur electrode, and the migration speed of lithium ions in solid lithium sulfide is very slow, thus slowing down the electrochemical reaction kinetics of the battery.
Due to sulfur and the final product Li 2 The density of S is different, and the sulfur cathode will undergo a large volume change before and after the electrode reaction, so the electrode is easily pulverized during multiple cycles, resulting in damage to the battery
[0008] In order to solve the above problems, it has been proved that the modification of the diaphragm can significantly inhibit the shuttle effect of polysulfides and play a role in capturing polysulfides. However, although the existing technology has improved the performance of lithium-sulfur batteries to a certain extent, But the common disadvantages are: the electrochemical performance of the battery is unstable, the specific capacity is not high enough, the shuttle effect of polysulfide is still obvious, the volume expansion of lithium-sulfur ion battery is significant, the experiment is more complicated, the operation is difficult, and the production cost is high.

Method used

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  • Preparation method of a novel lithium-sulfur battery diaphragm material
  • Preparation method of a novel lithium-sulfur battery diaphragm material
  • Preparation method of a novel lithium-sulfur battery diaphragm material

Examples

Experimental program
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Effect test

Embodiment 1

[0045] Step A, preparing polystyrene PS microspheres;

[0046] Add 10 g of styrene and 10 g of polyvinylpyrrolidone into 50 ml of deionized water, stir for 2 hours, then stir for 2 hours in an oil bath in a round bottom flask, the temperature of the oil bath is 70°C, and stir for 12 hours. Then centrifuge at 800 rad / min for 3 times, and dry at 60°C to obtain PS spheres.

[0047] Step B, prepare 3Dzif8 material;

[0048] B1, liquid A: 5mmol zinc nitrate hexahydrate, dispersed in 125ml methanol; liquid B: 20mmol 2-methylimidazole, dispersed in 125ml methanol;

[0049] B2, Pour liquid B into liquid A, and at the same time, add 1 g of polystyrene PS microspheres in step A, stir for 3 minutes until uniform, seal and age for 24 hours.

[0050] B3, wash by centrifugation, methanol 3 times, ethanol 3 times; dry at 60°C overnight to obtain 3Dzif8.

[0051] Step C, preparing Co-3Dzif8;

[0052] C1, take 1g of the ZIF-8 material in step B, put it in a beaker, add 1g of cobalt nitrate...

Embodiment 2

[0061] Step A, preparing polystyrene PS microspheres;

[0062] Add 20 g of styrene and 20 g of polyvinylpyrrolidone into 100 ml of deionized water, stir for 5 hours, then stir for 2 hours in an oil bath in a round-bottomed flask, the temperature of the oil bath is 80°C, and stir for 24 hours. Then centrifuge at 800rad / min for 3 times and dry at 80°C to obtain PS spheres.

[0063] Step B, prepare 3Dzif8 material;

[0064] B1, liquid A: 10mmol zinc nitrate hexahydrate, dispersed in 250ml methanol; B liquid: 40mmol 2-methylimidazole, dispersed in 250ml methanol;

[0065] B2, Pour liquid B into liquid A, and at the same time, add 2 g of polystyrene PS microspheres in step A to it, stir for 5 minutes until uniform, seal and age for 24 hours.

[0066] B3, centrifugal washing, methanol 3 times, ethanol 3 times; 60-80 ℃ dry solid-liquid, namely 3Dzif8 material;

[0067] Step C, preparing Co-3Dzif8;

[0068] C1, take 2g of the ZIF-8 material in step B, put it in a beaker, add 2g of...

Embodiment 3

[0075] Step A, preparing polystyrene PS microspheres;

[0076] Add 18 g of styrene and 18 g of polyvinylpyrrolidone into 90 ml of deionized water and stir for 4.5 hours, then stir for 1.5 hours in an oil bath in a round bottom flask, the temperature of the oil bath is 75°C, and stir for 36 hours. Then centrifuge at 700rad / min for 4 times and dry at 75°C to obtain PS spheres.

[0077] Step B, prepare 3D zif8 material;

[0078] B1, liquid A: 9mmol zinc nitrate hexahydrate, dispersed in 300ml methanol; liquid B: 35mmol 2-methylimidazole, dispersed in 260ml methanol;

[0079] B2, Pour liquid B into liquid A, and at the same time, add 1.8 g of polystyrene PS microspheres in step A into it, stir for 5 minutes until uniform, seal and age for 24 hours.

[0080] B3, centrifugal washing, methanol 3 times, ethanol 3 times; 60-80 ℃ dry solid-liquid, namely 3Dzif8 material;

[0081] Step C, preparing Co-3Dzif8;

[0082] C1, take 2g of the ZIF-8 material in step B, put it in a beaker, a...

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Abstract

The invention relates to a preparation method of a novel lithium-sulfur battery diaphragm material, comprising the following steps: step A, preparing polystyrene PS microspheres; step B, preparing 3Dzif8 material; step C, preparing Co-3Dzif8 material; step D, carbonizing Co‑3Dzif8 material. The invention overcomes the defects of obvious polysulfide "shuttle effect" in the lithium-sulfur battery prepared by the prior art, significant volume expansion effect of the lithium-sulfur battery and unstable electrochemical performance of the battery, and simplifies the production process and reduces the production cost. cost.

Description

technical field [0001] The invention relates to the technical field of material chemistry, in particular to a preparation method of a novel lithium-sulfur battery diaphragm material, and more particularly to a preparation method of a metal organic framework material as a diaphragm material. Background technique [0002] With the progress and development of social productivity, the level of human productivity has been greatly improved. At the same time, human demand for energy is also increasing day by day, and energy has an increasing influence on modern society and life. Energy has become one of the key factors affecting social development. Traditional fossil fuels (coal, petroleum) are non-renewable resources. Studies have shown that the current oil reserves on the earth can only be exploited for about 50 years, and coal resources can only last for less than 100 years. Mankind is facing an unprecedented energy crisis. In addition, the use of traditional fossil fuels has ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01M50/403H01M50/446H01M50/414B82Y30/00
CPCB82Y30/00H01M50/403H01M50/446Y02E60/10
Inventor 王新孙正豪
Owner INT ACAD OF OPTOELECTRONICS AT ZHAOQING SOUTH CHINA NORMAL UNIV
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