A kind of porous electrode and its preparation method and lithium battery

A porous electrode and lithium battery technology, applied in the field of materials, can solve the problems of high cost of expanded graphite, difficult to scale, shortened cruising range, etc., and achieve the effects of simple and feasible preparation method, reducing battery internal resistance, and improving rate performance.

Active Publication Date: 2022-04-15
江苏蓝固新能源科技有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

For example: reducing the thickness of the pole piece will lead to a decrease in energy density and a shortened cruising range; the energy density of batteries using lithium titanate negative electrodes is low; the cost of using expanded graphite is high and it is not easy to scale; there is a problem of inconsistency in various models of battery replacement, etc.

Method used

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  • A kind of porous electrode and its preparation method and lithium battery
  • A kind of porous electrode and its preparation method and lithium battery
  • A kind of porous electrode and its preparation method and lithium battery

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preparation example Construction

[0034] The present invention proposes a method for preparing a porous electrode, which can be realized in the following two specific ways. figure 1 A flow chart of a method for preparing a porous electrode provided by an embodiment of the present invention; figure 2 A flow chart of another method for preparing a porous electrode provided in an embodiment of the present invention. The following descriptions will be made in conjunction with these two flow charts respectively.

[0035] Such as figure 1 Shown, the main steps of the preparation method of a kind of porous electrode of the present invention comprise:

[0036] Step 110, adding a pore-forming agent to the electrode material slurry used to prepare the electrode to prepare an electrode sheet;

[0037] Step 120, soaking the electrode sheet in a solution containing BBARS, through the combination of BBARS and the anion of the pore-forming agent, the anion and cation of the pore-forming agent are dissociated, so that the...

Embodiment 1

[0056] In this embodiment, the boron-based anion acceptor compound is pentafluorophenylboron oxalate (PFPBO), and its structural formula is as follows:

[0057]

[0058] Choose LiNi 0.5 co 0.2 mn 0.3 o 2 As the positive electrode material, the positive electrode material LiNi 0.5 co 0.2 mn 0.3 o 2 Mix it with CNTs, LiF, and polyvinylidene fluoride (PVDF) according to the ratio of mass ratio 97.2:1.3:0.2:1.3, coat it on the aluminum foil current collector, dry it in an oven, and then roll it with a roller press to make Obtain the required positive electrode sheet;

[0059] Select artificial graphite as the negative electrode material, and mix graphite, sodium carboxymethylcellulose (CMC), CNTs, LiF, and binder styrene-butadiene rubber (SBR) according to the mass ratio of 95.7:1.4:0.8:0.1:2.0. Coated on the copper foil current collector, dried in an oven, and then rolled by a roller press to obtain the required negative electrode sheet;

[0060] The ceramic-coated po...

Embodiment 2

[0064] In this embodiment, the boron-based anion acceptor compound is tris(pentafluorophenyl)borane (TPFPB), and its structural formula is as follows:

[0065]

[0066] Choose LiNi 0.5 co 0.2 mn 0.3 o 2 As the positive electrode material, the positive electrode material LiNi 0.5 co 0.2 mn 0.3 o 2 with CNTs, Li 2 o 2 , PVDF is mixed evenly according to the ratio of 97.1:1.3:0.3:1.3, coated on the aluminum foil current collector, dried in an oven, and then rolled by a roller press to obtain the required positive electrode sheet;

[0067] Select nano-silicon as the negative electrode material, mix nano-silicon, CMC, CNTs, LiF, and SBR according to the ratio of 94.3:1.5:2.0:0.2:2.0, coat it on the copper foil current collector, dry it in an oven, and then roll it The press is rolled to obtain the required negative electrode sheet;

[0068] In a glove box with moisture less than 0.1ppm, oxygen less than 0.1ppm, and filled with argon, DEC and EC were mixed uniformly at ...

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Abstract

The present invention relates to a porous electrode, a preparation method thereof, and a lithium battery. The preparation method includes adding a pore-forming agent to the electrode material slurry used for preparing the electrode to prepare an electrode sheet; immersing the electrode sheet in a solution containing a boron-based anion acceptor compound BBARS, and passing the BBARS and the pore-forming agent in a solution. The combination of anions causes anion and cation dissociation of the pore-forming agent, so that the pore-forming agent is dissolved in the solution, leaving micropores in the original position; the electrode is taken out of the solution and vacuum-dried to obtain a porous electrode; A pore-forming agent is added to the material slurry to prepare an electrode sheet; the electrode sheet is assembled into a battery, and a solution containing a boron-based anion acceptor compound BBARS is injected into the battery. Anion and cation dissociation of the pore agent occurs, so that the pore-forming agent is dissolved in the solution, leaving micropores in the original position; the battery is vacuum-dried to obtain a porous electrode.

Description

technical field [0001] The invention relates to the field of material technology, in particular to a porous electrode, a preparation method thereof and a lithium battery. Background technique [0002] Lithium-ion batteries (LIBs), with their high energy density and rechargeable properties, have become the most attractive power source in current pure electric or hybrid electric vehicles. Slow charging speed and short cruising range are currently one of the main factors restricting the development of electric vehicles. [0003] The continuous increase in the energy density of power batteries has led to a continuous increase in the cruising range of electric vehicles. At present, the cruising range of mainstream models generally exceeds 400km, high-end models reach 500km, and some models even reach more than 600km, which can basically solve the mileage anxiety of electric vehicles. However, due to the insufficient rate performance and charging facilities of batteries, the dema...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01M4/139H01M4/13H01M10/052H01M10/42
CPCH01M4/139H01M4/13H01M10/052H01M10/4235H01M2004/021Y02E60/10
Inventor 黄建李立飞高田慧
Owner 江苏蓝固新能源科技有限公司
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