CN102694178B

CN102694178B - The positive electrode, battery and preparation method thereof of battery

Info

Publication number: CN102694178B
Application number: CN201210205962.1A
Authority: CN
Inventors: 刘云建; 刘三兵; 翟丽娟; 朱广燕; 陈效华
Original assignee: SAIC Chery Automobile Co Ltd
Current assignee: Chery Automobile Co Ltd
Priority date: 2012-06-21
Filing date: 2012-06-21
Publication date: 2015-11-25
Anticipated expiration: 2032-06-21
Also published as: CN102694178A

Abstract

The invention provides a kind of positive electrode of battery, LiNi _0.5mn _1.5o ₄/ C system battery and preparation method thereof, belongs to technical field of lithium ion, and it can solve the problem that existing battery in use exists gassing phenomenon.The positive electrode of battery of the present invention comprises following material: the mass fraction accounting for positive electrode total amount be 0.5%-2% press down gas additive.The generation that gas additive can suppress gassing phenomenon to a certain extent should be pressed down.LiNi of the present invention _0.5mn _1.5o ₄the positive electrode of/C system battery adopts above-mentioned positive electrode.LiNi of the present invention _0.5mn _1.5o ₄adopt priming procedure in the preparation process of/C system battery and change into step, also suppressing the generation of gassing phenomenon to a certain extent, change into the cell thickness obtained and obviously reduce.

Description

The positive electrode, battery and preparation method thereof of battery

Technical field

The invention belongs to technical field of lithium ion, be specifically related to a kind of positive electrode of battery, containing the LiNi of this positive electrode _0.5mn _1.5o ₄/ C system battery and preparation method thereof.

Background technology

Lithium ion battery, because high, the good cycle of its energy density, the advantage such as environment friendly and pollution-free, be it is believed that it is the first-selected power of new-energy automobile.In current commercial lithium-ion battery system, LiCoO ₂battery, due to expensive, poor stability, is not suitable for using in electric automobile.LiMn ₂o ₄battery due to shortcomings such as high-temperature behavior differences, and limits its application in electric automobile.LiFePO ₄also there is processing characteristics and the shortcoming such as high rate performance, poor performance at low temperatures in battery.Spinel-type LiNi _0.5mn _1.5o ₄the advantages such as it is high that positive electrode has operating voltage, low price, are considered to the first-selected positive electrode of lithium-ion-power cell of new generation.Therefore, with LiNi _0.5mn _1.5o ₄battery for positive electrode becomes the first-selected power supply of electric automobile.But at LiNi _0.5mn _1.5o ₄/ C system battery also exists the phenomenon of gassing, and what this phenomenon was serious have impact on LiNi _0.5mn _1.5o ₄the cycle performance of/C system battery, security performance and high rate performance etc.

Summary of the invention

In use there is the problem of gassing phenomenon in the positive electrode that the object of the invention is to solve existing battery, provides a kind of positive electrode of battery.

Solve the positive electrode that technical scheme that the technology of the present invention problem adopts is a kind of battery, comprise following material: the mass fraction accounting for positive electrode total amount be 0.5%-2% press down gas additive.

It is preferably, described that to press down gas additive be Li ₂cO ₃, one or both mixing in LiOH.

Another object of the present invention solves existing LiNi _0.5mn _1.5o ₄/ C system battery also exists the problem of the phenomenon of gassing, provides a kind of LiNi _0.5mn _1.5o ₄/ C system battery.

The technical scheme that solution the technology of the present invention problem adopts is a kind of LiNi _0.5mn _1.5o ₄/ C system battery, described LiNi _0.5mn _1.5o ₄the positive electrode of/C system battery adopts the positive electrode of above-mentioned battery.

For solving problem of the present invention, the present invention also provides a kind of LiNi _0.5mn _1.5o ₄the preparation method of/C system battery.

The technical scheme that solution the technology of the present invention problem adopts is a kind of LiNi _0.5mn _1.5o ₄the preparation method of/C system battery, comprises the steps:

Priming procedure): to the LiNi completing fluid injection _0.5mn _1.5o ₄/ C system battery, in the environment of 40 DEG C-55 DEG C, rushes in advance;

Change into step): the LiNi that priming procedure is obtained _0.5mn _1.5o ₄/ C system battery, in the environment of 40 DEG C-55 DEG C, changes into.

Preferably, in described priming procedure: pre-punching degree is that 0.05C charges in 0.02C charging, and 0.1C charges, and shelves 12-20h after completing.

Further preferably, the charging interval of 2-4h, 0.1C charging that to be the charging interval of 3-5h, 0.05C charging be the described charging interval in 0.02C charging is 3-6h.

Preferably, described changes in step: fertilizer alleviant is 0.1C discharge and recharge, 0.2C discharge and recharge, 0.3C discharge and recharge.

Further preferably, the described number of times in 0.1C discharge and recharge is 1-3 time, and the number of times of 0.2C discharge and recharge is 3-5 time, and the number of times of 0.3C discharge and recharge is 2-3 time.

The present invention passes through at LiNi _0.5mn _1.5o ₄what the positive pole of/C system battery added 0.5%-2% presses down gas additive, can suppress the generation of gassing phenomenon to a certain extent.

Simultaneously at LiNi _0.5mn _1.5o ₄adopt above-mentioned priming procedure in the preparation process of/C system battery and change into step, also suppressing the generation of gassing phenomenon to a certain extent, change into the cell thickness obtained and obviously reduce.

Accompanying drawing explanation

Fig. 1 is LiNi prepared by comparative example of the present invention _0.5mn _1.5o ₄battery outside drawing.

Fig. 2 is LiNi prepared by the embodiment of the present invention 5 _0.5mn _1.5o ₄battery outside drawing.

Embodiment

For making those skilled in the art understand technical scheme of the present invention better, below in conjunction with the drawings and specific embodiments, the present invention is described in further detail.

Comparative example

This comparative example provides a kind of LiNi _0.5mn _1.5o ₄/ C system battery.

Positive electrode forms:

This LiNi _0.5mn _1.5o ₄the positive pole of/C system battery is made up of the material of following mass fraction: the LiNi of 92% _0.5mn _1.5o ₄, the acetylene black of 4%, the Kynoar (PVDF) of 4%.

Preparation method:

By above-mentioned LiMn _1.5ni _0.5o ₄, acetylene black and Kynoar mix, and uses NMP(1-N-methyl-2-2-pyrrolidone N-) this mixture is modulated into slurry, lithium ion battery production technology conveniently, through coating, dry, prick film, cut and be made into based lithium-ion battery positive plate.

With the pole piece of above-mentioned preparation for positive pole, Delanium is negative pole, the LiPF of electrolyte to be concentration be 1.5mol/L ₆eC(ethyl carbonate ester) solution+DMC(dimethyl carbonate) solution, its solvent is EC(ethyl carbonate ester)+DMC(dimethyl carbonate), wherein EC(ethyl carbonate ester) and DMC(dimethyl carbonate) volume ratio be 1: 1, barrier film is celgard2400 film, adopts the method for winding to assemble 055065 type LiNi _0.5mn _1.5o ₄/ C system battery.At ambient temperature is 25 DEG C, rush in advance night to battery note in the glove box being full of argon gas atmosphere.

The method of pre-punching is: 0.2CmA constant current charge is to 4.90V, and prescribe a time limit 150min.

Change into after completing preliminary filling, the method changed into is:

1) after 0.5CmA constant current charge to 4.9V, turn 4.9V constant voltage charge, cut-off current is 0.05CmA, 120 minutes in limited time;

2) 10min is left standstill;

3) 0.5CmA constant-current discharge is to 3.5V, 150 minutes in limited time;

4) 10min is left standstill;

5) after 1.0CmA constant current charge to 4.9V, turn 4.9V constant voltage charge, cut-off current is 0.05CmA, 120 minutes in limited time;

6) 10min is left standstill;

7) 1.0CmA constant-current discharge is to 3.5V, 100 minutes in limited time;

8) 10min is left standstill;

9) 1.0CmA constant current charge is to 4.5V, in limited time 45min; Then turn 4.5V constant voltage charge, cut-off current is 0.01CmA, in limited time 120min;

10) stop;

After changing into, the gas in aluminum-plastic composite membrane is extracted out, after heat-sealing, obtain product.

This comparative example prepares the performance test data of battery and cell thickness test data in table 1.

The outside drawing of battery prepared by the present embodiment is Fig. 1, visible, and its outward appearance has obvious gassing hollowing phenomenon.

Embodiment 1

The present embodiment provides a kind of LiNi _0.5mn _1.5o ₄/ C system battery.

Positive electrode forms:

The positive electrode of this battery is made up of the material of following mass fraction: the LiNi of 91% _0.5mn _1.5o ₄, the acetylene black of 4%, the Kynoar (PVDF) of 4%, the Li of 1% ₂cO ₃.

Preparation method: identical with the method for comparative example.

The present embodiment prepares the performance test data of battery and cell thickness test data in table 1, and visible, compared with the battery that comparative example is obtained, the performance of its battery increases, the thickness of battery obviously reduces.

Embodiment 2

Positive pole forms:

The positive pole of this battery is made up of the material of following mass fraction: the LiNi of 91.5% _0.5mn _1.5o ₄, the acetylene black of 4%, the Kynoar (PVDF) of 4%, the LiOH of 0.5%.

Preparation method: identical with the method for comparative example.

Embodiment 3

Positive pole forms:

The positive pole of this battery is made up of the material of following mass fraction: the LiNi of 90% _0.5mn _1.5o ₄, the acetylene black of 4%, the Kynoar (PVDF) of 4%, the LiOH of 1%, the Li of 1% ₂cO ₃.

Preparation method: identical with the method for comparative example.

Embodiment 4

Positive pole forms:

The positive pole of this battery is made up of the material of following mass fraction: the LiNi of 90% _0.5mn _1.5o ₄, the acetylene black of 4%, the Kynoar (PVDF) of 4%, the LiOH of 1.5%.

Preparation method: identical with the method for comparative example.

Embodiment 5

Positive pole forms:

The positive pole of this battery is made up of the material of following mass fraction: the LiNi of 92% _0.5mn _1.5o ₄, the acetylene black of 4%, the Li of the Kynoar (PVDF) 1% of 4% ₂cO ₃.

Preparation method: similar to the method for comparative example, unlike:

Pre-punching method is: be 55 DEG C in ambient temperature, and pre-punching degree is that 0.02C fills 3h, and 0.05C fills 4h, and 0.1C fills 5h.14h is shelved after pre-punching.

Chemical synthesizing method is: ambient temperature is 40 DEG C, and fertilizer alleviant is 0.1C charge and discharge 1 time, 0.2C charge and discharge 4 times, 0.3C charge and discharge 2 times.

The outward appearance that the present embodiment prepares battery is shown in Fig. 2, visible, and obtain battery through preliminary filling compared with battery obtained in comparative example with changing into, its surfacing is without gassing hollowing phenomenon.

Embodiment 6

Positive pole forms:

Preparation method: similar to the method for comparative example, unlike:

Pre-punching method is: be 45 DEG C in ambient temperature, and pre-punching degree is that 0.02C fills 4h, and 0.05C fills 2h, and 0.1C fills 4h.20h is shelved after pre-punching.

Chemical synthesizing method is: ambient temperature is 45 DEG C, and fertilizer alleviant is 0.1C charge and discharge 3 times, 0.2C charge and discharge 3 times, 0.3C charge and discharge 2 times.

The present embodiment prepares the performance test data of battery and cell thickness test data in table 1, and visible, the battery obtained with comparative example, the performance of its battery increases, the thickness of battery obviously reduces.

Embodiment 7

Positive pole forms:

Preparation method: similar to the method for comparative example, unlike:

Pre-punching method is: be 50 DEG C in ambient temperature, and pre-punching degree is that 0.02C fills 5h, and 0.05C fills 2h, and 0.1C fills 6h.12h is shelved after pre-punching.

Chemical synthesizing method is: ambient temperature is 50 DEG C, and fertilizer alleviant is 0.1C charge and discharge 2 times, 0.2C charge and discharge 5 times, 0.3C charge and discharge 3 times.

Embodiment 8

Positive pole forms: the positive pole of this battery is made up of the material of following mass fraction: the LiNi of 92% _0.5mn _1.5o ₄, the acetylene black of 4%, the Li of the Kynoar (PVDF) 1% of 4% ₂cO ₃.

Preparation method: similar to the method for comparative example, unlike:

Pre-punching method is: be 40 DEG C in ambient temperature, and pre-punching degree is that 0.02C fills 4h, and 0.05C fills 3h, and 0.1C fills 3h.18h is shelved after pre-punching.

Chemical synthesizing method is: ambient temperature is 55 DEG C, and fertilizer alleviant is 0.1C charge and discharge 1 time, 0.2C charge and discharge 5 times, 0.3C charge and discharge 3 times.

Table 1 embodiments of the invention prepare performance test data and the cell thickness test data of battery

	Comparative example	Embodiment 1	Embodiment 2	Embodiment 3	Embodiment 4	Embodiment 5	Embodiment 6	Embodiment 7	Embodiment 8
										Specific capacity (mAh/g)	125	128	129	130	131	131	132	135	133
100 capability retentions (%)	91.5	95.6	95.8	96.2	96.5	97.0	97.2	97.3	97.5
										Change into rear cell thickness (mm)	8.2	5.3	5.28	5.26	5.25	5.22	5.21	5.23	5.20

Be understandable that, the illustrative embodiments that above execution mode is only used to principle of the present invention is described and adopts, but the present invention is not limited thereto.For those skilled in the art, without departing from the spirit and substance in the present invention, can make various modification and improvement, these modification and improvement are also considered as protection scope of the present invention.

Claims

1. a LiNi _0.5mn _1.5o ₄the preparation method of/C system battery, is characterized in that, comprise the steps:

Priming procedure: to the LiNi completing fluid injection _0.5mn _1.5o ₄/ C system battery, in the environment of 40 DEG C-55 DEG C, carries out preliminary filling;

Change into step: the LiNi that priming procedure is obtained _0.5mn _1.5o ₄/ C system battery, in the environment of 40 DEG C-55 DEG C, changes into, and described changes in step: fertilizer alleviant is 0.1C discharge and recharge, 0.2C discharge and recharge, 0.3C discharge and recharge,

Wherein, described LiNi _0.5mn _1.5o ₄the positive electrode of/C system battery comprises following material: the mass fraction accounting for positive electrode total amount be 0.5%-2% press down gas additive, it is described that to press down gas additive be Li ₂cO ₃, one or both mixing in LiOH.

2. LiNi as claimed in claim 1 _0.5mn _1.5o ₄the preparation method of/C system battery, is characterized in that, in described priming procedure: pre-charge conditions is that 0.05C charges in 0.02C charging, and 0.1C charges, and shelves 12-20h after completing.

3. LiNi as claimed in claim 2 _0.5mn _1.5o ₄the preparation method of/C system battery, is characterized in that, the charging interval of 2-4h, 0.1C charging that the described charging interval in 0.02C charging, to be charging interval of 3-5h, 0.05C charging be is 3-6h.

4. LiNi as claimed in claim 1 _0.5mn _1.5o ₄the preparation method of/C system battery, is characterized in that, the described number of times in 0.1C discharge and recharge is 1-3 time, and the number of times of 0.2C discharge and recharge is 3-5 time, and the number of times of 0.3C discharge and recharge is 2-3 time.