CN1691380A - Nitrogen phosphate anode material for secondary lithium battery and uses thereof - Google Patents

Abstract

The invention relates to a positive electrode material for the secondary nitrogen phosphonate of the secondary lithium battery, its chemical formula is: LixAaMmBbPOzNx, wherein A is: Na, Mg, Ti, V, Cr, Cu, Mn, Co, Ni, Zn, Ga, In, Ge, Ag, Hg, Au, Zr, Nb, W; M is: Fe, Co, Mn, Ni, V; B is: Li, Na, K, Ca, Mg, Ti, V, Cr, Cu, Mn, Co, Ni, Zn, Ga, In, Ge, Ag, Hg, Au, Zr, Nb, W; M an B are not the same element at the same time; x, a, m, b, z, n represent mole percent, 0.9<=x<=4; 0<=a<= 0.1; 0.5<=m<=1; 0<=b<=0.5; 3<=z<=4; 0.01<=n<=1. The positive electrode material is used for the anode of the secondary lithium battery and components the secondary lithium battery with the normal cathode, electrolytic solution.

Description

Positive electrode of a kind of nitrogen phosphate that is used for serondary lithium battery and uses thereof

Technical field

The present invention relates to a kind of positive electrode that is used for serondary lithium battery, specifically relate to positive electrode of the nitrogen phosphate that contains transition metal that a kind of serondary lithium battery uses and uses thereof.

Background technology

LiFePO ₄It is a kind of positive electrode active materials that is mainly used in serondary lithium battery with olivine structural.1997, by J.B.Goodenough etc. at first apply for a patent (5,910,382, USA), propose its positive electrode as serondary lithium battery.In the same year, Armand etc. are with LiFePO ₄The iron position mix and P site doped applied for patent (6,514,640, USA).LiFePO ₄This class material, its advantage are that raw material is cheap, free from environmental pollution, security performance is good and theoretical capacity higher (170mAhg-1).Its shortcoming is that electronic conductivity and ionic conductivity are low.In order to improve its electronic conductivity, adopted carbon to coat LiFePO ₄Method (Zhaohui Chen, and J.R.Dahn.Reducing Carbon inLiFePO ₄/ C Composite Electrodes to Maximize Specific Energy, Volumetric Energy, andTap Density.J.Electrochem.Soc., 149 (9), A1184-A1189 (2002)), perhaps at method (the Sung-yoon chung of Li position doping high valence ion, Jasont.Bloking and Yet-ming Chiang.Electronicallyconductive phospho-olivines as lithium storage electrodes.Nature material, 2,123-128 (2002)), perhaps in the method for surface deposition metal.In the practical application of battery, particularly in the application of high power battery, require the high rate performance of material higher, this requires electrode material to have higher electronic conductance and ionic conductance and good interface stability and transport property simultaneously.These materials of invention can't satisfy these requirements at present.

Summary of the invention

The objective of the invention is in order to overcome existing LiFePO ₄The class material during as the positive electrode of serondary lithium battery electronic conductivity and ionic conductivity low, and adopt carbon to coat and only can improve electronic conductance and can not obtain the shortcoming of desirable ionic conductivity in the method for Li position doping high valence ion, thereby provide a kind of electronic conductivity and ionic conductivity that can comprehensively improve body, and lithium storage content is big, the positive electrode of the nitrogen phosphate that is used for serondary lithium battery that the material high rate performance is high.

Another object of the present invention is to provide the purposes of the positive electrode of the described nitrogen phosphate that is used for serondary lithium battery.

The objective of the invention is to realize by the following technical solutions.

The invention provides a kind of positive electrode that is used for the nitrogen phosphate of serondary lithium battery, its chemical formula is

Li _xA _aM _mB _bPO _zNn

Wherein, A is Na, Mg, Ti, V, Cr, Cu, Mn, Co, Ni, Zn, Ga, In, Ge, Ag, Hg, Au, Zr, Nb, W;

M is Fe, Co, Mn, Ni, V;

B is Li, Na, K, Ca, Mg, Ti, V, Cr, Cu, Mn, Co, Ni, Zn, Ga, In, Ge, Ag, Hg, Au, Zr, Nb, W;

And M and B are not a kind of element simultaneously;

X, a, m, b, z, n represents molar percentage,

0.9≤x≤4；?????0≤a≤0.1；?????0.5≤m≤1；

0≤b≤0.5；?????3≤z≤4；???????0.01≤n≤1。

Using the positive electrode that is used for the nitrogen phosphate of serondary lithium battery provided by the invention is at LiMPO ₄In, introduce the position formation nitrogen phosphate that the N element replaces O, its advantage is: adopt the N element partly to replace LiMPO ₄Middle PO ₄Behind the O element in the group, improved lithium storage content.This is because the valence state of N is more negative than oxygen, will introduce an oxygen room after two N atoms replace two oxygen atoms.For charge balance, the content of lithium in compound will be above 1 simultaneously.For example form as Li _1.2FePO _3.8N _0.2Compound.Because the existence in oxygen room, ionic conductance and electronic conductance will significantly increase, and its theoretical capacity can reach 202mAh/g.N replaces the position of oxygen, and content can be up to 1.For example form as Li ₂FePO ₃The compound of N, its theoretical lithium storage content reaches 410mAh/g, head and shoulders above the LiFePO that is unsubstituted ₄Capacity.In addition, N has reduced PO after replacing O ₄The electron-withdrawing power of group, thus the conductivity of lithium ion improved.Pass through LiMPO again ₄Middle Li position and/or single position, M position or two-position doping have further improved the conductivity of electronics and the conductivity of lithium ion, obtain having the nitrogen phosphate material of olivine structural or impalpable structure.The electronic conductivity of this class positive electrode and ionic conductivity all have the raising of the order of magnitude, and its high rate performance also significantly improves, and demonstrate higher reversible lithium storage energy.

The invention provides a kind of purposes of positive electrode of the above-mentioned nitrogen phosphate that is used for serondary lithium battery, this nitrogen phosphate can be used for the positive electrode of serondary lithium battery, make the positive pole of serondary lithium battery, form serondary lithium battery with negative pole, the electrolyte of routine.Carbon, conducting metal oxide or metal that the conductive additive that uses in the positive pole uses as routine; But the employed active material of negative pole comprises material with carbon element, lithium transition-metal nitride or the lithium ulvospinel of lithium metal, lithium alloy removal lithium embedded; Be full of electrolyte between positive pole and the negative pole, positive pole is burn-on respectively to go between with an end of negative pole and is linked to each other with the battery case two ends of mutually insulated.

Adopt nitrogen phosphate of the present invention to be applicable to that as the serondary lithium battery of positive electrode various mobile electronic devices maybe need the equipment of mobile driven by energy, mobile phone for example, notebook computer, portable video recorder, electronic toy, electric tool, electric automobile, hybrid vehicle, fields such as electric topedo, and be not limited to this.

Embodiment

Embodiment 1, the preparation positive electrode Li that is used for the nitrogen phosphate of serondary lithium battery of the present invention _1.2FePO _3.8N _0.2

Nitrogen phosphate positive electrode active materials Li _1.2FePO _3.8N _0.2Can prepare by following steps.At first, take by weighing LiF, Li according to mol ratio ₃N, FeC ₂O ₄2H ₂O and NH ₄H ₂PO ₄(mol ratio is 0.6: 0.2: 1: 1), filling high-purity N ₂In the sealing ball grinder of gas behind the mechanical ball milling (rotating speed is 500 rev/mins, 3 hours), with this mixture in high-purity N ₂(heat treated step is: be warming up to 400 ℃ with 1 hour from room temperature in heat treatment under the gas shiled; at 400 ℃ of constant temperature after 8 hours; with dropping to room temperature in two hours); (rotating speed is 500 rev/mins to ball milling once more; 1 hour) after; mixture is sintering (sintering step is: be warming up to 600 ℃ with 2 hours from room temperature, at 600 ℃ of constant temperature after 24 hours, with dropping to room temperature in 3 hours) once more.

With Li _1.2FePO _3.8N _0.2The anodal mixing at normal temperatures and pressures with the cyclohexane solution of acetylene black and 10% Kynoar (PVDF) forms slurry (active material: acetylene black: PVDF=75: 15: 10), evenly be coated on the aluminum substrates, about 2～20 μ m of the film thickness of gained are as the positive pole of simulated battery.

The negative pole of simulated battery uses the lithium sheet, and electrolyte is 1mol LiPF ₆Be dissolved in the mixed solvent of 1L EC and DMC (volume ratio 1: 1).Positive pole, negative pole, electrolyte are assembled into simulated battery in the glove box of argon shield.

The multiplying power testing procedure of simulated battery: at first charge to 4.5V with 30mA/g, the multiplying power current discharge is to 2.0V then, and the capacity of being emitted is the discharge capacity under this multiplying power, and discharge is discharged to 2.0V with 30mA/g after finishing again.Carry out the test of next multiplying power then.The test result of this simulated battery is listed in table 1.

Embodiment 2, the preparation positive electrode Li that is used for the nitrogen phosphate of serondary lithium battery of the present invention ₄FePO ₄N

Nitrogen phosphate positive electrode active materials Li ₄FePO ₄N can prepare by following steps.At first, take by weighing LiPO according to mol ratio ₃And Li ₃N (mol ratio is 1: 1) is filling high-purity N ₂In the sealing ball grinder of gas behind the mechanical ball milling (rotating speed is 500 rev/mins, 3 hours), with this mixture in high-purity N ₂Heat treatment under the gas shiled (heat treated step is: be warming up to 700 ℃ with 3 hours from room temperature, at 700 ℃ of constant temperature after 8 hours, with dropping to room temperature in two hours) adds FeC after taking out sample ₂O ₄2H ₂O is (with LiPO ₃Mol ratio be 1: 1), in the sealing ball grinder behind the ball milling (rotating speed is 500 rev/mins, 1 hour), mixture is once more in high-purity N once more ₂Sintering under the gas shiled (sintering step is: be warming up to 600 ℃ with 2 hours from room temperature, at 600 ℃ of constant temperature after 24 hours, with dropping to room temperature in 3 hours).

The positive pole of simulated battery, negative pole, electrolyte and battery assembling are same as embodiment 1, and the composition of positive electrode and the test result of simulated battery are listed in table 1.

Embodiment 3～5

By the positive electrode that is used for serondary lithium battery of the present invention that the method preparation of embodiment 1 is formed by table 1, different is for the sample in Li position and the replacement of M position, to add the oxalates presoma of the corresponding doped chemical of required dosage ratio in presoma.All the other preparation processes are identical with embodiment 1.

The positive pole of simulated battery, negative pole, electrolyte and battery assembling are same as embodiment 1, and the composition of positive electrode and the test result of simulated battery are listed in table 1.

Embodiment 6, the preparation positive electrode Li that is used for the nitrogen phosphate of serondary lithium battery of the present invention _1.8Co _0.1FePO ₃N

Nitrogen phosphate positive electrode active materials Li _1.8Co _0.1FePO ₃N can prepare by following steps.At first, with Li ₃N mixes the back in high-purity N with the Co powder ₂Made Li in 12 hours 700 ℃ of heating down _2.4Co _0.3N.Take by weighing LiPO then ₃, Li ₂₄Co _0.3N, Fe ₃N ₂(mol ratio is 3: 1: 1) filling high-purity N ₂In the sealing ball grinder of gas behind the mechanical ball milling (rotating speed is 500 rev/mins, 3 hours), with this mixture in high-purity N ₂Sample is taken out in heat treatment under the gas shiled (heat treated step is: be warming up to 600 ℃ with 3 hours from room temperature, at 600 ℃ of constant temperature after 8 hours, with dropping to room temperature in two hours).

The positive pole of simulated battery, negative pole, electrolyte and battery assembling are same as embodiment 1, and the composition of positive electrode and the test result of simulated battery are listed in table 1.

Embodiment 7～26

By the positive electrode that is used for serondary lithium battery of the present invention that the method preparation of embodiment 1 is formed by table 1, different is for the sample in Li position and the replacement of M position, to add the oxalates presoma of the corresponding doped chemical of required dosage ratio in presoma.All the other preparation processes are identical with embodiment 1.

The positive pole of simulated battery, negative pole, electrolyte and battery assembling are same as embodiment 1, and the composition of positive electrode and the test result of simulated battery are listed in table 1.

The composition of table 1, positive electrode and the test result of simulated battery

Embodiment	The positive electrode chemical formula	Discharge capacity			Embodiment	The positive electrode chemical formula	Discharge capacity
										??0.2C	??1C	??3C	??0.2C	??1C	??3C
		??1	??Li 1.2FePO 3.8N 0.2	??150			??130	??120	??2							??Li 4FePO 4N	??200	??180	??130
??3	??Li 0.9Zr 0.1Fe 0.9Mg 0.1PO 3.9N 0.17				??140	??125				??115	??4	??Li 0.95Na 0.05Fe 0.9Co 0.1PO 3.99N 0.01	??140	??130	??120
		??5	??Li 0.95Na 0.05??Fe 0.9Cr 0.067PO 3.99N 0.01	??142			??127	??120	??6							??Li 1.8Co 0.1FePO 3N	??170	??150	??140
??7	??Li 0.95Nb 0.01Fe 0.9Cu 0.1PO 3.99N 0.1				??140	??130				??120	??8	??Li 1.04Cr 0.02Fe 0.5Mn 0.5PO 3.9N 0.1	??145	??130	??125
		??9	??Li 0.95W 0.01Fe 0.9Ni 0.1PO 3.99N 0.01	??141			??130	??115	??10							??Li 0.96Ti 0.05Fe 0.9Ca 0.1PO 3.9N 0.12	??142	??132	??120
??11	??LiMg 0.05Fe 0.9Zn 0.1PO 3.9N 0.1				??150	??140				??135	??12	??Li 0.94Hg 0.08Fe 0.9Li 0.2PO 3.98N 0.02	??150	??140	??130
		??13	??Li 0.92Ge 0.06Fe 0.9Na 0.2PO 3.9N 0.12	??145			??140	??130	??14							??Li 0.94Au 0.08Fe 0.9K 0.2PO 3.98N 0.02	??151	??142	??135
??15	??Li 0.95V 0.02Fe 0.9Ag 0.2PO 3.9N 0.1				??140	??135				??120	??16	??Li 0.95Mn 0.02Fe 0.9Hg 0.2PO 3.9N 0.1	??150	??141	??130
		??17	??Li 0.95Co 0.02Fe 0.9Cu 0.1PO 3.9N 0.1	??140			??125	??115	??18							??Li 0.95Ni 0.02Fe 0.9Au 0.2PO 3.9N 0.1	??145	??135	??123
??19	??Li 0.95Ga 0.02Fe 0.7V 0.2PO 3.9N 0.1				??140	??130				??110	??20	??Li 0.95In 0.02Fe 0.7Ga 0.2PO 3.9N 0.1	??142	??130	??115
		??21	??LiCu 0.1Co 0.7In 0.2PO 3.4N 0.43	??145			??132	??123	??22							??LiZn 0.05Fe 0.8Ti 0.1PO 3.9N 0.1	??148	??138	??124
??23	??Li 1.1Mn 0.8Zr 0.1PO 3.9N 0.1				??155	??145				??137	??24	??Li 1.1Fe 0.8Ge 0.1PO 3.9N 0.1	??160	??152	??132
		??25	??Li 1.1Ni 0.75Nb 0.1PO 3.9N 0.1	??160			??140	??126	??26							??Li 1.1V 0.5W 0.1PO 3.9N 0.1	??165	??140	??120

According to the result of table 1 as can be seen, the positive electrode that is used for the nitrogen phosphate of serondary lithium battery of the present invention has all shown the multiplying power property that higher lithium storage content is become reconciled, the LiFePO of general pure phase ₄Under the 3C condition, has only 60% raw capacity (90mAh/g).This explanation is by our material design, and the electronic conductance and the ionic conductivity of material improve really.Reality confirms also that to the measurement of the electronic conductance of some material the electronic conductance of these materials has been increased to 10 ^-5～10 ^-4S/cm is than pure LiFePO ₄(10 ^-10～10 ^-9S/cm) high several magnitude.

Claims (2)

1, a kind of positive electrode that is used for the nitrogen phosphate of serondary lithium battery, its chemical formula is

Li _xA _aM _mB _bPO _zN _n

Wherein, A is Na, Mg, Ti, V, Cr, Cu, Mn, Co, Ni, Zn, Ga, In, Ge, Ag, Hg, Au, Zr, Nb, W;

M is Fe, Co, Mn, Ni, V;

B is Li, Na, K, Ca, Mg, Ti, V, Cr, Cu, Mn, Co, Ni, Zn, Ga, In, Ge, Ag, Hg, Au, Zr, Nb, W;

And M and B are not a kind of element simultaneously;

X, a, m, b, z, n represents molar percentage,

0.9≤x≤4；????0≤a≤0.1；????0.5≤m≤1；

0≤b≤0.5；????3≤z≤4；??????0.01≤n≤1。

2, the purposes of the positive electrode of the described nitrogen phosphate that is used for serondary lithium battery of a kind of claim 1.