CN106207150A

CN106207150A - A kind of atomizing freeze drying prepares the method for lithium cell negative pole material lithium titanate

Info

Publication number: CN106207150A
Application number: CN201610841637.2A
Authority: CN
Inventors: 陈敏; 唐泽勋; 商士波; 常敬杭; 刘洪金
Original assignee: HUNAN SOUNDDON NEW ENERGY CO Ltd
Current assignee: HUNAN SOUNDDON NEW ENERGY CO Ltd
Priority date: 2016-09-23
Filing date: 2016-09-23
Publication date: 2016-12-07

Abstract

The invention discloses a kind of method that atomizing freeze drying prepares lithium cell negative pole material lithium titanate, it is stoichiometrically to weigh dispensing with Ti compound, Li compound, metal-oxide M, it is scattered in distilled water, after sand milling, with liquid nitrogen and liquid petroleum gas (liquid propane gas) as cryogen, by atomizing freeze drying pelletizing, after calcining, obtain the lithium titanate material of M doping vario-property.Present invention process is simple, and controllability is strong, and resulting materials high rate capability is excellent, is applicable to commercial production lithium titanate anode material.

Description

A kind of atomizing freeze drying prepares the method for lithium cell negative pole material lithium titanate

Technical field

The present invention relates to the preparation method of a kind of battery electrode material, particularly relate to a kind of atomizing freeze drying and prepare lithium The method of battery negative pole material of lithium titanate.

Background technology

At present, the negative material of business-like lithium ion battery uses carbon negative pole material mostly, but carbon negative pole material is still There are some defects: react with electrolyte in discharge process first formation surface passivated membrane, result in coulomb effect first Rate is relatively low；Carbon electrode is close with the electrode potential of lithium metal, when battery overcharge, can form Li dendrite and cause short circuit, causes Safety problem etc..

Lithium titanate is increasingly becoming the focus of research as the lithium ion battery negative material received much concern in recent years.Its tool There is plurality of advantages: (1) lithium titanate crystal structure during Lithium-ion embeding is deviate from can keep the stability of height, and makes It has excellent cycle performance and stable discharge voltage, is referred to as " zero strain " material；(2) lithium titanate is relative to metal The current potential of lithium is 1.55V, far above the recovery voltage of most electrolyte, can avoid the reduction of electrolyte and the generation of passivating film, The generation of lithium metal can be stoped simultaneously, there is the most excellent cycle performance and security performance；(3) lithium titanate is being charged to point crystalline substance When stone structure and rock salt structure two-phase section, there is platform in voltage, utilizes this point, the instruction that can terminate as charging；(4) metatitanic acid Lithium electrochemical diffusion coefficient at normal temperatures is 2 × 10^-8cm²·s^-1, big 1 order of magnitude than carbon negative pole material, charge-discharge velocity is very Hurry up.

But, lithium titanate is a kind of insulant, its poorly conductive, and when high current charge-discharge, capacity attenuation is fast, multiplying power Poor-performing, limits its application.Existing lithium titanate preparation method is predominantly spray-dried and solid phase method, in preparation process Middle employing element doping and material with carbon-coated surface, although above method can solve lithium titanate material electronic conductivity to a certain extent The problem of difference, but its chemical property is the most undesirable.

Summary of the invention

It is an object of the invention to provide a kind of method that atomizing freeze drying prepares lithium battery cathode material lithium titanate, solve The certainly problem in background technology.

The present invention realizes by the following technical solutions:

The present invention is directed to the existing shortcoming preparing lithium titanate, obtained the Modified Titanium of excellent performance by atomizing freeze drying legal system Acid lithium material.

1. the method that an atomizing freeze drying prepares lithium cell negative pole material lithium titanate, it is characterised in that described lithium titanate Molecular formula be Li₄M_xTi_5-xO₁₂, in formula, M is doping vario-property element 0 ＜ x ＜ 0.1, specifically comprises the following steps that

S1: by Li compound, Ti compound and metal-oxide M, Li:(Ti+M in molar ratio)=0.75～0.90 uniform After mixing, being dispersed in distilled water, solid content is 15%～30%, and the slurry after dispersion is transferred to sand milling 0.5 in sand mill ～2h；

S2: being sprayed to the slurry of S1 medium sand milled in cryogen produce and freeze product, freezing product, to carry out vacuum cold Lyophilizing dry certain time, make water in products decilitre China disappear, obtain porous spherical lithium titanate precursor；

S3: the porous spherical lithium titanate precursor obtained in S2 is put in atmosphere furnace to replace atmosphere sintering in two steps certain The porous spherical lithium titanate anode material of M doping vario-property: Li is i.e. obtained after time₄M_xTi_5-xO₁₂。

In the present invention, the Li compound described in S1 is Li₂CO₃、LiOH·H₂O、CH₃At least one in COOLi, Ti Compound is rutile TiO₂, anatase titanium dioxide TiO₂、H₂TiO₃In at least one, metal M oxide is Nd₂O₃、V₂O₅、 Nb₂O₅、Ta₂O₅、MoO₃In at least one.

In the present invention, the cryogen described in S2 is liquid nitrogen and liquid petroleum gas (liquid propane gas), and its volume ratio is 1:1～2, described vacuum Cryogenic temperature is-40～-80 DEG C, and sublimation drying is 8～24h.

In the present invention, in the two steps alternately atmosphere sintering described in S3, first step sintering temperature is 350～500 DEG C, sintering Atmosphere is air, and sintering time is 4～8h, and second step sintering temperature is 700～900 DEG C, and sintering atmosphere is in nitrogen or argon One, sintering time is 8～15h.

Beneficial effect: the lithium titanate precursor using the atomizing freeze drying method of the present invention to prepare is surface and internal porous Spherical products, be different from mesopore, the Conglobation type product of spray drying and drying the lamellar of pulverizing, Pedicellus et Pericarpium Trapae completely Shape, the lyophilisation product of needle-like；In calcination process, the present invention uses air pre-burning and noble gas calcining two steps annealing method, The advantage of the method is, Li compound decomposes more preferably in air atmosphere, calcines and can suppress under inert non-oxidizing property atmosphere The growth of lithium titanate crystal grain, material particle size is evenly distributed and has few part Ti³⁺Generation, be conducive to improving lithium titanate material Electric conductivity；The lithium titanate anode material using our bright synthesis has the big rate discharge characteristic of excellence.

Accompanying drawing explanation

Fig. 1 is the SEM figure of the embodiment of the present invention 1 product lithium titanate；

Fig. 2 is the SEM figure of comparative example 1 product lithium titanate of the present invention；

Fig. 3 is the embodiment of the present invention 1 and comparative example 1 product high rate performance comparison diagram.

Detailed description of the invention

For the technological means making the present invention realize, creation characteristic, reach purpose and be easy to understand with effect, below knot Conjunction is specifically illustrating, and the present invention is expanded on further.

Embodiment 1

Li:(Ti+Nb in molar ratio)=0.805, Ti:Nb=4.95:0.05, weigh Li₂CO₃, rutile TiO₂、 Nb₂O₅Uniformly being scattered in distilled water after mixing, solid content is 20%, and the slurry after dispersion is transferred to sand milling 1h in sand mill After, it is sprayed to slurry in the cryogen that liquid nitrogen and liquid petroleum gas (liquid propane gas) mix according to volume ratio 1:1.5 ratio produce freeze product, will Freeze product and carry out vacuum lyophilization 18 hours at-60 DEG C, make water in products decilitre China disappear, obtain porous spherical metatitanic acid Lithium presoma, switches to the lower 800 DEG C of sintering of nitrogen atmosphere after presoma is placed in the lower 400 DEG C of pre-burning 5h of air atmosphere in atmosphere furnace 9h obtains target product porous spherical lithium titanate anode material: Li₄Nb_0.05Ti_4.95O₁₂As shown in Figure 1.

The material of embodiment 1 and metal lithium sheet form 2032 button cells uses blue electricity battery test system at 25 DEG C Testing, test voltage scope 1.0～3.0V, first discharge specific capacity (0.1C) is that 169.7mAh/g, 5C discharge capacity can Reach 1C discharge capacity after 157mAh/g, 10C discharge capacity reaches 142mAh/g, and 500 circulations and still can reach 152mAh/g.

Embodiment 2

Li:(Ti+Nd in molar ratio)=0.82, Ti:Nd=4.95:0.05, weigh Li₂CO₃, rutile TiO₂、Nd₂O₃ Uniformly being scattered in distilled water after mixing, solid content is 18%, is transferred in sand mill after sand milling 0.5h by the slurry after dispersion, It is sprayed to slurry in the cryogen that liquid nitrogen and liquid petroleum gas (liquid propane gas) mix according to volume ratio 1:2 ratio produce freeze product, will freeze Product carries out vacuum lyophilization 16 hours at-50 DEG C, makes water in products decilitre China disappear, before obtaining porous spherical lithium titanate Drive body, switch to the lower 775 DEG C of sintering 8h of nitrogen atmosphere after presoma is placed in the lower 435 DEG C of pre-burning 4h of air atmosphere in atmosphere furnace and obtain To target product porous spherical lithium titanate anode material: Li₄Nd_0.05Ti_4.95O₁₂。

The material of embodiment 2 and metal lithium sheet form 2032 button cells uses blue electricity battery test system at 25 DEG C Testing, test voltage scope 1.0～3.0V, first discharge specific capacity (0.1C) is that 168.9mAh/g, 5C discharge capacity can Reach 1C discharge capacity after 152mAh/g, 10C discharge capacity reaches 138mAh/g, and 500 circulations and still can reach 150mAh/g.

Embodiment 3

Li:(Ti+V in molar ratio)=0.80, Ti:V=4.95:0.06, weigh Li₂CO₃, rutile TiO₂、V₂O₅All Being scattered in distilled water after even mixing, solid content is 25%, is transferred in sand mill after sand milling 1.5h by the slurry after dispersion, will Slurry is sprayed in the cryogen that liquid nitrogen and liquid petroleum gas (liquid propane gas) mix according to volume ratio 1:1 ratio produce freeze product, will freeze product Thing carries out vacuum lyophilization 20 hours at-40 DEG C, makes water in products decilitre China disappear, obtains porous spherical lithium titanate forerunner Body, switches to the lower 850 DEG C of sintering 8h of nitrogen atmosphere and obtains after presoma is placed in the lower 400 DEG C of pre-burning 4h of air atmosphere in atmosphere furnace Target product porous spherical lithium titanate anode material: Li₄V_0.06Ti_4.94O₁₂。

The material of embodiment 3 and metal lithium sheet form 2032 button cells uses blue electricity battery test system at 25 DEG C Testing, test voltage scope 1.0～3.0V, first discharge specific capacity (0.1C) is that 170.3mAh/g, 5C discharge capacity can Reach 1C discharge capacity after 150mAh/g, 10C discharge capacity reaches 137mAh/g, and 500 circulations and still can reach 149mAh/g.

Comparative example 1:

Li:(Ti+Nb in molar ratio)=0.805, Ti:Nb=4.95:0.05, weigh Li₂CO₃, rutile TiO₂、 Nb₂O₅Uniformly being scattered in distilled water after mixing, solid content is 20%, and the slurry after dispersion is transferred to sand milling 1h in sand mill After, the spray drying that slurry carries out routine obtains lithium titanate precursor, and presoma is placed in atmosphere furnace under air atmosphere 400 DEG C pre-burning 5h, then rise under 800 DEG C of air atmospheres, sinter 9h and obtain target product lithium titanate anode material: Li₄Nb_0.05Ti_4.95O₁₂ As shown in Figure 2.

The material of comparative example 1 and metal lithium sheet form 2032 button cells uses blue electricity battery test system at 25 DEG C Testing, test voltage scope 1.0～3.0V, first discharge specific capacity (0.1C) is that 166.7mAh/g, 5C discharge capacity is 142mAh/g, 10C discharge capacity is 128mAh/g, and after 500 circulations, 1C discharge capacity is 140mAh/g.

Can be seen that lithium titanate sphericity prepared by the present invention is more preferable from the SEM figure of embodiment 1 and comparative example 1, aperture is more Little, dispersion is more preferable；The lithium titanate anode material that from the point of view of the performance test results prepared by the present invention is in discharge capacity, the most forthright Energy, capability retention aspect are significantly better than that customary preparation methods.

The ultimate principle of the present invention and principal character and advantages of the present invention, the technology of the industry have more than been shown and described Personnel, it should be appreciated that the present invention is not restricted to the described embodiments, simply illustrating this described in above-described embodiment and description The principle of invention, without departing from the spirit and scope of the present invention, the present invention also has various changes and modifications, and these become Change and improvement both fall within scope of the claimed invention, claimed scope by appending claims and Equivalent defines.

Claims

1. the method that an atomizing freeze drying prepares lithium cell negative pole material lithium titanate, it is characterised in that dividing of described lithium titanate Minor is Li₄M_xTi_5-xO₁₂, in formula, M is doping vario-property element 0 ＜ x ＜ 0.1, specifically comprises the following steps that

S1: by Li compound, Ti compound and metal-oxide M, Li:(Ti+M in molar ratio)=0.75～0.90 uniformly mix After, it being dispersed in distilled water, solid content is 15%～30%, and the slurry after dispersion is transferred to sand milling 0.5～2h in sand mill；

S2: be sprayed to the slurry of S1 medium sand milled in cryogen produce and freeze product, product will be freezed and carry out vacuum freezing and do Dry certain time, make water in products decilitre China disappear, obtain porous spherical lithium titanate precursor；

S3: the porous spherical lithium titanate precursor obtained in S2 is put in atmosphere furnace and replace atmosphere sintering certain time in two steps After i.e. obtain the porous spherical lithium titanate anode material of M doping vario-property: Li₄M_xTi_5-xO₁₂。

A kind of atomizing freeze drying prepares the method for lithium cell negative pole material lithium titanate, and its feature exists In, the Li compound described in S1 is Li₂CO₃、LiOH·H₂O、CH₃At least one in COOLi, Ti compound is rutile Type TiO₂, anatase titanium dioxide TiO₂、H₂TiO₃In at least one, metal M oxide is Nd₂O₃、V₂O₅、Nb₂O₅、Ta₂O₅、MoO₃In At least one.

A kind of atomizing freeze drying prepares the method for lithium cell negative pole material lithium titanate, and its feature exists In, the cryogen described in S2 is liquid nitrogen and liquid petroleum gas (liquid propane gas), and its volume ratio is 1:1～2, and described vacuum freezing temperature is-40 ～-80 DEG C, sublimation drying is 8～24h.

A kind of atomizing freeze drying prepares the method for lithium cell negative pole material lithium titanate, and its feature exists In, in the two steps alternately atmosphere sintering described in S3, first step sintering temperature is 350～500 DEG C, and sintering atmosphere is air, sintering Time is 4～8h, and second step sintering temperature is 700～900 DEG C, and sintering atmosphere is the one in nitrogen or argon, sintering time It is 8～15h.