CN108390098A - A kind of high-voltage lithium-ion battery electrolyte and high-voltage lithium ion batteries - Google Patents

Abstract

To overcome the problems, such as that the height of high-voltage electrolyte impedance in the prior art, high temperature performance can not be taken into account, a kind of high-voltage lithium-ion battery electrolyte is provided, the present invention provides a kind of high-voltage lithium-ion battery electrolytes, including lithium salts, solvent and additive, above-mentioned additive includes cyclic annular sultones, fluoric cyclic carbonate, double fluorine sulfimide lithiums and such as 1 compound represented A of following formula：Formula 1：Wherein, R₁、R₂、R₃、R₄、R₅Separately it is selected from OR₆、‑CN、‑NO₂、‑F、‑CF₃、‑SO₃、‑COR₇、‑COOR₈, alkyl that carbon atom number is 1 30, also, the R₆、R₇、R₈Separately it is selected from the alkyl that carbon atom number is 1 30.Meanwhile the invention also discloses the lithium ion batteries using above-mentioned high-voltage lithium-ion battery electrolyte.High-voltage lithium-ion battery electrolyte provided by the invention can be substantially reduced the impedance of battery, improve the cryogenic property of battery, improve the high temperature cyclic performance of battery.

Description

A kind of high-voltage lithium-ion battery electrolyte and high-voltage lithium ion batteries

Technical field

The present invention relates to the high-voltage lithium ion batteries of a kind of high-voltage lithium-ion battery electrolyte and the use electrolyte.

Background technology

Lithium ion battery has high voltage, and energy and power density are high, cycle life, and self discharge is small and environmentally friendly Etc. series of advantages, have become current most efficient energy storage device, be widely used in mobile electronic device, and will be Wider array of development is obtained on electric vehicle and hybrid vehicle.With the continuous development of scientific and technological progress and market, lithium battery is promoted Energy density increasingly seems important and urgent.Other than the manufacture craft of current material and battery is improved, high-voltage anode material Material is popular one of the research direction of comparison, it is to realize the high energy of battery by promoting the depth of charge of positive electrode active materials Metric density.So far, a variety of high-voltage anode materials such as binary material LiNiMnO₄, ternary material LiNi_xCo_yMn_zO₂(x+y+z= 1), vanadium system oxide LiM_xV_2-xO₄With phosphoric acid salt material LiMPO₄Successfully researched and developed.

However the impedance that the esters electrolyte of traditional lithium-ion battery is susceptible to lithium ion battery in high-temperature electric pressure increases Add, the problem of efficiency for charge-discharge is greatly reduced, high temperature performance can not be taken into account, constrain the further of high-voltage lithium ion batteries Development.

Invention content

The technical problem to be solved by the present invention is to be directed to, high-voltage electrolyte impedance in the prior art is high, high and low temperature The problem of capable of can not taking into account, provide a kind of high-voltage lithium-ion battery electrolyte.

Technical solution is as follows used by the present invention solves above-mentioned technical problem：

A kind of high-voltage lithium-ion battery electrolyte, including lithium salts, solvent and additive are provided, above-mentioned additive includes ring Shape sultones, fluoric cyclic carbonate, double fluorine sulfimide lithiums and such as 1 compound represented A of following formula：

Formula 1：

Wherein, R₁、R₂、R₃、R₄、R₅Separately it is selected from-OR₆、-CN、-NO₂、-F、-CF₃、-SO₃、-COR₇、-COOR₈、 Carbon atom number is the alkyl of 1-30, also, the R₆、R₇、R₈Separately it is selected from the alkyl that carbon atom number is 1-30.

Meanwhile the present invention also provides a kind of high-voltage lithium ion batteries, including anode, cathode, setting are in the anode Diaphragm between the cathode and electrolyte, wherein the electrolyte is foregoing high-voltage lithium ion batteries electricity Solve liquid.

For the impedance easily occurred when high-voltage lithium ion batteries being overcome to be used under higher charging/discharging voltage (>=4.25V) Height, high temperature performance is poor, the low problem of capacity retention ratio, the present invention by the electrolytic solution simultaneously using cyclic annular sultones, 1 compound represented A of fluoric cyclic carbonate, double fluorine sulfimide lithiums and above-mentioned formula, is being electrolysed by above-mentioned four substance Synergistic effect in liquid system significantly reduces the impedance of electrolyte, while electrolyte being made to have good high temperature performance.

Specific implementation mode

In order to make the technical problems, technical solutions and beneficial effects solved by the present invention be more clearly understood, below in conjunction with Embodiment, the present invention will be described in further detail.It should be appreciated that specific embodiment described herein is only used to explain The present invention is not intended to limit the present invention.

High-voltage lithium-ion battery electrolyte provided by the invention includes lithium salts, solvent and additive, above-mentioned additive packet Include cyclic annular sultones, fluoric cyclic carbonate, double fluorine sulfimide lithiums and such as 1 compound represented A of following formula：

Formula 1：

Wherein, R₁、R₂、R₃、R₄、R₅Separately it is selected from-OR₆、-CN、-NO₂、-F、-CF₃、-SO₃、-COR₇、-COOR₈、 Carbon atom number is the alkyl of 1-30, also, the R₆、R₇、R₈Separately it is selected from the alkyl that carbon atom number is 1-30.

In above-mentioned electrolyte, cyclic annular sultones is well known in the art, for example, 1 is specifically can be used, in 3- propane sulphurs At least one of ester, Isosorbide-5-Nitrae-butane sultone, propenyl-1,3-sulfonic acid lactone, it is preferred to use 1,3-propane sultone.

In electrolyte provided by the invention, the additive amount of cyclic annular sultones can adjust in wide range, preferably feelings Under condition, the content of the ring-type sultones is 0.01%-5%.

Fluorinated ethylene carbonate, trifluoromethyl ethylene carbonate, double fluoro specifically can be used in above-mentioned fluoric cyclic carbonate It is one or more in ethylene carbonate.Under preferable case, in above-mentioned electrolyte, the content of the fluoric cyclic carbonate is 0.01%-30%, more preferably 0.1%-3%.

Double fluorine sulfimide lithiums (LiFSI) substance well known in the art, high-voltage lithium ion electricity provided by the invention In the electrolyte of pond, the content of double fluorine sulfimide lithiums is 0.01%-15%.

In the present invention, for above compound A, theoretically, the compound of structure shown in meeting formula 1 can realize the present invention Purpose, as particularly preferred, the compound A is 1- methyl-benzotriazole.

On the basis of the total weight of the electrolyte, the content of the compound A is 0.01%-5%, preferably 0.05%-3%, more preferably 0.1%-0.8%.

It, can be with cyclic annular sultones above-mentioned, fluoric cyclic carbonate, double fluorine sulfimide lithiums for above compound A Collective effect forms a film in the positive and negative anodes of battery, to reduce battery impedance, improves the high temperature performance of battery under high voltages. When the additive amount of compound A is too small, film-formation result is deteriorated, and declines to battery impedance and high temperature performance improvement, and works as Battery impedance, deterioration can seriously be increased when the adding too much of compound A.

In high-voltage lithium-ion battery electrolyte provided by the invention, in cyclic annular sultones, fluoric cyclic carbonate, double In the presence of fluorine sulfimide lithium is common, after compound A is added, compound A can occur with the mentioned component in electrolyte Synergistic effect, in the case where equally improving battery high temperature performance, the unexpected resistance for considerably reducing battery It is anti-.Also, in electrolyte system provided by the invention, the influence of double fluorine sulfimide lithiums is equally notable, even if using structure Similar bis- (trimethyl fluoride sulfonyl) imine lithiums (LiTFSI) also cannot achieve the purpose of the present invention, if the present invention provides excessive electricity The cycle performance under high temperature will be caused to be deteriorated using LiTFSI in solution liquid.

According to the present invention, to realize better resultant effect, the high-voltage lithium-ion battery electrolyte further includes insatiable hunger And cyclic carbonate.The unsaturated cyclic carbonic ester is selected from least one of vinylene carbonate, vinylethylene carbonate； On the basis of the total weight of the electrolyte, the content of the unsaturated cyclic carbonic ester is 0.01%-5%.

Further include solvent, lithium salts in high-voltage lithium-ion battery electrolyte provided by the invention.As people in the art Member well known to, wherein the specific substance of solvent can be used it is conventional, for example, the lithium salts be selected from LiPF₆、LiBF₄、LiBOB、 LiDFOB、LiN(SO₂CF₃)₂、LiN(SO₂C₂F₅)₂、LiC(SO₂CF₃)₃In it is one or more.The lithium ion battery is non-aqueous In electrolyte, the content of lithium salts is 0.1-15%.The non-aqueous organic solvent is selected from ethylene carbonate, propene carbonate, carbonic acid At least one of butene esters, dimethyl carbonate, diethyl carbonate, methyl ethyl carbonate and methyl propyl carbonate.The content of solvent can It adjusts in wide range, can be specifically adaptively adjusted according to the content of foregoing various additives and lithium salts.

The present invention also provides a kind of high-voltage lithium ion batteries, including anode, cathode, setting are described positive and described Diaphragm between cathode and electrolyte, the electrolyte are foregoing high-voltage lithium-ion battery electrolyte.

Preferably, the anode includes positive electrode active materials, and the active material of the anode is LiNi_xCo_yMn_zL_(1-x-y-z) O₂、LiCo_x’L_(1-x’)O₂、LiNi_x”L’_y’Mn_(2-x”-_y’)O₄、Li_z’MPO₄At least one of, wherein L Al, Sr, Mg, Ti, At least one of Ca, Zr, Zn, Si or Fe, 0≤x≤1,0≤y≤1,0≤z≤1,0 ＜ x+y+z≤1,0<X '≤1,0.3≤ X "≤0.6,0.01≤y '≤0.2, L ' it is at least one of Co, Al, Sr, Mg, Ti, Ca, Zr, Zn, Si, Fe；0.5≤z’≤ At least one of 1, M Fe, Mn, Co.

Electrolyte provided by the invention is more suitable in high-voltage lithium ion batteries, it is preferred that the lithium ion battery Charge cutoff voltage >=4.25V.

The anode, cathode, diaphragm do not limit clearly, and the anode, cathode, diaphragm of this field routine can be used.

The present invention is further detailed by the following examples.

Embodiment 1-2, comparative example 1-7

The present embodiment is for illustrating high-voltage lithium-ion battery electrolyte disclosed by the invention.

With LiNi_0.5Co_0.2Mn_0.3O₂The electrode material system of/artificial graphite prepares 4.35V high-voltage lithium ion batteries, packet Include anode, cathode, the diaphragm and electrolyte being arranged between the anode and the cathode, wherein the electrolyte it is total Weight is 100% meter, contains additive composition and mass percentage, remaining group shown in 1 embodiment 1-2 of table, comparative example 1-7 It is divided into LiPF₆And Conventional solvents.

1 electrolysis additive of table forms

The battery that above-described embodiment and comparative example are prepared carries out following performance test, and by the test result of gained Insert table 2：

(1) high temperature cyclic performance is tested：At 45 DEG C, the battery after chemical conversion is charged to 4.35V with 1C constant current constant voltages, then With 1C constant-current discharges to 3.0V.After 300 cycles of charge/discharge, the conservation rate of the 300th circulation volume is calculated, to assess its height Warm cycle performance.

It is as follows that 45 DEG C of 1C recycle 300 capacity retention ratio calculation formula：

300th circulation volume conservation rate (%)=(the 300th cyclic discharge capacity/first time cyclic discharge capacity) × 100%.

(2) low temperature performance is tested：At 25 DEG C, the battery after chemical conversion is charged to 4.35V with 1C constant current constant voltages, then With 0.5C constant-current discharges to 3.0V, discharge capacity is recorded.Then 1C constant current constant voltages are full of, and are placed in -20 DEG C of environment and are shelved 12h Afterwards, 0.5C constant-current discharges record discharge capacitance to 3.0V.

- 20 DEG C of low temperature discharge capacity conservation rate=0.5C discharge capacities (- 20 DEG C)/0.5C discharge capacities (25 DEG C)

(3) often low temperature direct impedance (DCR) performance test：At 25 DEG C, the battery 1C after chemical conversion is charged to half electric shape State uses 0.1C, 0.2C, 0.5C, 1C and 2C charge and discharges ten seconds to record charge and discharge blanking voltage respectively respectively.Then, with different multiplying Charging and discharging currents be abscissa (unit：A), using the blanking voltage corresponding to charging and discharging currents as ordinate, linear relationship is done Scheme (unit：mV).

The slope value for the DCR values=difference charging current and the linear graph of corresponding blanking voltage of charging.

The slope value of electric discharge DCR values=difference discharge current and the linear graph of corresponding blanking voltage.

Table 2

The test result of comparative example 1 and comparative example 5 can be seen that in the electrolyte system containing PS, FEC, LiFIS Middle addition 1- methyl-benzotriazole can significantly reduce DCR while improving high temperature performance.And compare comparative example 4 and right Although ratio 1-3 and the test result of comparative example 7 and comparative example 6 can be seen that is added 1- in PS, FEC or PS, VC systems Methyl-benzotriazole can improve high temperature performance and can reduce DCR, but the reduction amplitude of DCR is very small.

The effect of comparative example 1 and embodiment 2 can be seen that the content of 1- methyl-additives such as benzotriazole and FEC Increase battery high-temperature behavior will be caused to decline, especially DCR is sharply increased, but performance be still slightly stronger than not simultaneously contain PS, FEC, The electrolyte of LiFIS and 1- methyl-benzotriazole.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all essences in the present invention All any modification, equivalent and improvement etc., should all be included in the protection scope of the present invention made by within refreshing and principle.

Claims (10)

1. a kind of high-voltage lithium-ion battery electrolyte, which is characterized in that including lithium salts, solvent and additive, above-mentioned additive Including cyclic annular sultones, fluoric cyclic carbonate, double fluorine sulfimide lithiums and such as 1 compound represented A of following formula：

Formula 1：

Wherein, R₁、R₂、R₃、R₄、R₅Separately it is selected from-OR₆、-CN、-NO₂、-F、-CF₃、-SO₃、-COR₇、-COOR₈, carbon it is former Subnumber is the alkyl of 1-30, also, the R₆、R₇、R₈Separately it is selected from the alkyl that carbon atom number is 1-30.

2. high-voltage lithium-ion battery electrolyte according to claim 1, which is characterized in that the compound A is 1- first Base-benzotriazole.

3. high-voltage lithium-ion battery electrolyte according to claim 1, which is characterized in that the ring-type sultones choosing From at least one of 1,3- propane sultones, 1,4- butane sultones, acrylic -1,3- sultones.

4. high-voltage lithium-ion battery electrolyte according to claim 1, which is characterized in that the fluoric cyclic carbonate Selected from least one of fluorinated ethylene carbonate, trifluoromethyl ethylene carbonate, difluoroethylene carbonate.

5. according to the high-voltage lithium-ion battery electrolyte described in any one of claim 1-4, which is characterized in that with described On the basis of the total weight of electrolyte, the content of the compound A is 0.01%-5%；It is described ring-type sultones content be 0.01%-5%；The content of the fluoric cyclic carbonate is 0.01%-30%；The content of double fluorine sulfimide lithiums is 0.01%-15%.

6. high-voltage lithium-ion battery electrolyte according to claim 1, which is characterized in that the high-voltage lithium ion electricity Pond electrolyte further includes unsaturated cyclic carbonic ester.

7. high-voltage lithium-ion battery electrolyte according to claim 6, which is characterized in that the unsaturated cyclic carbonic acid Ester is selected from least one of vinylene carbonate, vinylethylene carbonate；It is described on the basis of the total weight of the electrolyte The content of unsaturated cyclic carbonic ester is 0.01%-5%.

8. a kind of high-voltage lithium ion batteries, including anode, cathode, the diaphragm being arranged between the anode and the cathode, And electrolyte, which is characterized in that the electrolyte is the high-voltage lithium ion batteries described in any one of claim 1-7 Electrolyte.

9. high-voltage lithium ion batteries according to claim 8, which is characterized in that the anode includes positive-active material The active material of material, the anode is LiNi_xCo_yMn_zL_(1-x-y-z)O₂、LiCo_x’L_(1-x’)O₂、LiNi_x”L’_y’Mn_{(2-x”-y’)}O₄、 Li_z’MPO₄At least one of, wherein at least one of L Al, Sr, Mg, Ti, Ca, Zr, Zn, Si or Fe, 0≤x≤1,0 ≤ y≤1,0≤z≤1,0 ＜ x+y+z≤1,0<X '≤1,0.3≤x "≤0.6,0.01≤y '≤0.2, L ' be Co, Al, Sr, At least one of Mg, Ti, Ca, Zr, Zn, Si, Fe；At least one of 0.5≤z '≤1, M Fe, Mn, Co.

10. high-voltage lithium ion batteries according to claim 8 or claim 9, which is characterized in that the high-voltage lithium ion batteries Charge cutoff voltage >=4.25V.