阅读说明：本技术 一种改善4.5微米锂离子电解铜箔针孔的添加剂 (Additive for improving pinhole of 4.5-micron lithium ion electrolytic copper foil ) 是由 徐龙 黄国平 江明 于 2020-12-30 设计创作，主要内容包括：本发明公开了一种改善4.5微米锂离子电解铜箔针孔的添加剂,它包括：包括：含二硫化物添加剂：1～10ppm；DPS或ZPS：0.1～2ppm；胶原蛋白或明胶：10～50ppm；含量为0.1～2ppm的苯磺酸钾、苯磺酸钠中的至少一种。本发明的有益效果是利用含苯的磺化物替代之前聚醚类化合物,大大降低4.5微米针孔的发生；更好控制锂电箔工艺稳定性,稳定产品质量。(The invention discloses an additive for improving pinholes of 4.5 micron lithium ion electrolytic copper foil, which comprises the following components: the method comprises the following steps: disulfide-containing additive: 1-10 ppm; DPS or ZPS: 0.1-2 ppm; collagen or gelatin: 10 to 50 ppm; 0.1-2 ppm of at least one of potassium benzene sulfonate and sodium benzene sulfonate. The method has the advantages that the benzene-containing sulfonate is used for replacing the prior polyether compound, so that the generation of 4.5-micron pinholes is greatly reduced; the stability of the lithium foil process is better controlled, and the product quality is stabilized.)

1. An additive for improving pinholes of 4.5 micron lithium ion electrolytic copper foil is characterized in that: the method comprises the following steps: disulfide-containing additive: 1-10 ppm; DPS or ZPS: 0.1-2 ppm; collagen or gelatin: 10 to 50 ppm; 0.1-2 ppm of at least one of potassium benzene sulfonate and sodium benzene sulfonate.

2. The additive for improving pinholes of 4.5 micron lithium ion electrolytic copper foil according to claim 1, wherein: the additive is added into electrolyte, and the copper dissolution parameter of the electrolyte is as follows: cu²⁺：80~110g/L；H₂SO₄：90~120g/L；Cl^-：10~50mg/L。

Technical Field

The invention relates to the technical field of electrolytic copper foil, in particular to a copper foil for a lithium ion battery, which is an additive suitable for improving pinholes of 4.5-micron lithium ion electrolytic copper foil.

Background

The electrolytic copper foil is one of important basic materials in the electronic industry and is widely applied in the electronic industry. With the rapid development of the electric automobile industry, the demand of the lithium battery is rapidly increased, and the copper foil is used as a main material of a negative electrode current collector of the lithium battery, and the performance of the copper foil plays an extremely important role in the performance of the lithium battery. Lithium battery manufacturers are continually demanding higher performance for copper foil. The thinner the lithium ion electrolytic copper foil is, the more easily pinholes appear, the pinholes can greatly reduce the elongation and tensile strength of the copper foil, the great influence is exerted on the coating of the battery, and in order to improve the problem, the improvement is carried out from a 4.5 micron copper foil additive.

Chinese patent publication No. CN111254465A discloses an electrolysis methodThe copper foil manufacturing method comprises the steps of adding electrolyte into an electrolytic bath, electrolyzing at 50-60 ℃, wherein the circulating flow of the electrolyte is 41-43L/min, and Cu in the electrolyte₂ ⁺The concentration is 78-85 g/L, H₂SO₄The concentration is 110g/L of 105-^-1(ii) a Putting a cathode material and an anode material into the electrolyte, stirring, and controlling the preparation time according to the thickness of the required copper foil; forming a copper foil on the cathode, taking down the cathode, stripping the copper foil after soaking, and treating the surface of the copper foil by using polyethylene glycol and a coupling agent; drying, cutting and packaging. The generation of pinholes can be effectively prevented, but the method does not describe whether the method is applicable to a 4.5-micron copper foil, and no direct data can prove how the effect of improving the pinholes is.

Disclosure of Invention

The wetting agent and leveling agent of the common lithium electrolytic copper foil are mostly polyether compounds, the substances can reduce the surface tension of electrolyte, improve the wettability, accelerate the leveling of the copper foil and relieve pinholes, but as the 4.5 micron ultrathin copper foil, the polyether compounds cannot meet the requirements of the product on relieving the pinholes.

In order to solve the technical problems, the technical scheme of the invention is as follows: an additive for improving pinholes of 4.5 micron lithium ion electrolytic copper foil comprises: disulfide-containing additive: 1-10 ppm; DPS or ZPS: 0.1-2 ppm; collagen or gelatin: 10 to 50 ppm; 0.1-2 ppm of at least one of potassium benzene sulfonate and sodium benzene sulfonate.

In the scheme, the additive is added into the electrolyte, and the copper dissolution parameter of the electrolyte is as follows: cu²⁺：80~110g/L；H₂SO₄：90~120g/L；Cl^-：10~50mg/L。

The method has the advantages that the benzene-containing sulfonate is used for replacing the prior polyether compound, so that the generation of 4.5-micron pinholes is greatly reduced; the stability of the lithium foil process is better controlled, and the product quality is stabilized.

Detailed Description

The technical solution of the present invention is clearly and completely described below with reference to the following embodiments. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. All other embodiments based on the embodiments in the present invention, without any inventive work, will be apparent to those skilled in the art from the following description.

Example 1: example 1:

a copper foil for a lithium ion battery is an additive suitable for improving pinholes of a 4.5 micron lithium ion electrolytic copper foil, and is prepared by the following method:

copper dissolution parameters:

Cu²⁺：80~110g/L；

H₂SO₄：90~120g/L；

Cl^-：10~50mg/L；

additive content in the electroplating solution:

disulfide-containing additive: 1-10 ppm;

DPS or ZPS: 0.1-2 ppm;

collagen or gelatin: 10 to 50 ppm;

GESS：0.1~2ppm

foil forming machine parameters:

current 20000A

The copper foil is continuously produced without pinholes.

GESS, which is a synthesized sulfonated substance containing benzene rings, has a better leveling effect than polyether compounds, and greatly reduces the occurrence of 4.5-micron pinholes. The ges may specifically be at least one of potassium benzenesulfonate and sodium benzenesulfonate.

Pinhole control tests with different additives were performed on 6 micron and 4.5 micron copper foils and the specific data are given in the following table:

from the above table, 6 sections of 6 μm copper foils were selected and divided into two groups for comparison test, one group of additives was PEG6000, one group of additives was the additives of the present invention, the 300 × 300mm pin holes added with PEG6000 were found to be 2, 3, 5, while the number of pin holes added with the additives of the present invention was 0, and the other 6 sections of 4.5 μm copper foils were selected and divided into two groups for comparison test, one group of additives was PEG6000, one group of additives was the additives of the present invention, the 300 × 300mm pin holes added with PEG6000 were found to be 21, 23, 35, while the number of pin holes added with the additives of the present invention was 0, 2,4, which indicates the first: the number of pinholes is obviously increased along with the reduction of the thickness of the copper foil; secondly, the method comprises the following steps: compared with PEG6000, the additive of the invention can obviously improve the condition of easy pinhole of copper foil, greatly reduce the possibility of pinhole occurrence of copper foil, and has obvious improvement effect especially for 4.5 micron copper foil. It should be noted that this is the conclusion that the company has made many experiments unintentionally, and there is no report that potassium benzene sulfonate and sodium benzene sulfonate are added to reduce the micropores of the copper foil instead of polyether compounds.