CN108232175A - A kind of lithium ion battery graphite/lithium titanate composite anode material and preparation method - Google Patents

Abstract

The present invention provides a kind of lithium ion battery graphite/lithium titanate composite anode materials and preparation method, graphite/the lithium titanate anode material is to form lithium titanate and organic cracking carbon coating layer in graphite type material particle surface, is formed using graphite type material as kernel, using composite material of the lithium titanate with organic cracking carbon coating layer as shell mechanism；Preparation method includes the following steps：(1) by graphite type material, lithium titanate, organic cracking carbon carbon source according to 100：1‑10：15 mass ratio is added in into inorganic solvent or organic solvent, is mixed, dry；(2) gained composite material is warming up to 600 1050 DEG C with the rate of 1 20 DEG C/min and is sintered under atmosphere of inert gases protection, and keep the temperature 1 10h to get；Graphite/lithium titanate composite anode material in the present invention can effectively improve safety, high rate performance, cycle performance and the high temperature performance of graphite negative electrodes material, while preparation method is simple for process controllable, of low cost, is easy to mass industrial production.

Description

A kind of lithium ion battery graphite/lithium titanate composite anode material and preparation method

Technical field

The present invention relates to lithium ion battery negative material fields, and in particular to a kind of lithium ion battery graphite/lithium titanate Composite negative pole material and preparation method.

Background technology

Carbonaceous material because with relatively low intercalation potential, good cycle performance, relative moderate price, environmental-friendly etc. Advantage is widely used in lithium ion battery negative material.Wherein, graphite type material because in reversible discharge specific capacity, filling for the first time The outstanding advantage of discharging efficiency, voltage platform, manufacture cost etc. is the negative material category of current mainstream, in future one Also will be the important candidate of lithium ion battery negative material in the section time.But the relatively low intercalation potential of graphite type material, easily with The characteristics of electrolyte forms SEI films on surface so that it is short of in terms of safety and high rate performance.It is it is then desired to right Graphite type material is modified processing to improve its chemical property.

Lithium titanate material has higher discharge platform, higher ionic diffusion coefficient, extremely low volume expansion, overlength Cycle life, good low temperature charge-discharge performance so that there is higher peace using its lithium ion battery as negative material Quan Xing, again forthright and wider temperature in use section, thus occupy a tiny space in lithium ion battery negative material.But The relatively low theoretical specific capacity of lithium titanate material (~175mAh/g) and higher intercalation potential (~1.5V) lead to its energy density It is relatively low, significantly limit its application field.Graphite type material is modified using lithium titanate material, has both it good Safety and high rate performance are a kind of good modified approach.

At present, the existing report being modified using lithium titanate material to graphite type material.Application number The domestic patent of invention of 201210124713.X discloses a kind of composite cathode material of silicon/carbon/graphite and its system of lithium titanate coating modification Preparation Method and application；The domestic patent of invention of application number 201410344991.5 discloses a kind of lithium titanate cladding surface treated Negative material, preparation method and the application of graphite, the negative material is in surface treated graphite-like basis negative material particle surface Upper formation lithium titanate clad, graphite negative electrodes material to be overcome to analyse the safety problems such as lithium in applying, overcomes existing graphite Class negative material uses unmatched defect with battery system under excessive temperature or too low temperature, improves existing modification or modification Lithium titanate particle caused by method is reunited, graphite particle surface coats the problems such as uneven because anisotropy causes；Application No. is 201710178160.9 domestic patent of invention disclose a kind of preparation method of lithium titanate composite cathode material of silicon/carbon/graphite, pass through machine Tool mixing, crushes the three-dimensional conductive network that lithium titanate is distributed in graphite composition by the means such as nodularization, high temperature sintering at isostatic pressed fusion In.However, first two method all employs preparation and and the graphite that more complicated sol gel process carries out lithium titanate material Class material it is compound, it is difficult to realize lithium titanate material in the uniform cladding on graphite material surface and grasped in industrialized mass production It is larger to make difficulty, is unfavorable for mass producing；Lithium titanate material is then placed in the inside of composite structure, nothing by later approach It is effectively modified that method makes full use of the characteristic of lithium titanate to carry out graphite material.

Invention content

For it is existing the technical issues of, the present invention proposes a kind of lithium ion battery graphite/lithium titanate composite negative pole material Material and preparation method, the graphite/lithium titanate composite anode material can effectively improve the safety of graphite negative electrodes material, multiplying power Performance, cycle performance and high temperature performance, while preparation method is simple for process controllable, of low cost, is easy to batch chemical industry life Production.

In order to achieve the above object, the present invention is achieved by the following technical programs：

A kind of lithium ion battery graphite/lithium titanate composite anode material, the graphite/lithium titanate anode material are in stone Black class material granule surface forms lithium titanate and organic cracking carbon coating layer, is formed using graphite type material as kernel, with lithium titanate With graphite/lithium titanate composite material that organic cracking carbon coating layer is shell mechanism；

The raw material for being used to prepare the graphite/lithium titanate composite anode material includes graphite type material, lithium titanate, organic splits Solve carbon carbon source；The graphite type material, lithium titanate, organic cracking carbon carbon source mass ratio be 100：1-10：1-5.

Preferably, the graphite type material is one kind in native graphite, Delanium, carbonaceous mesophase spherules and soft charcoal Or at least two mixture, grain size be 5-30 μm, purity >=99%.

Preferably, the grain size of the lithium titanate be 10-500nm, purity >=99.0%.

Preferably, organic cracking carbon carbon source is glucose, sucrose, polyethylene glycol, polyvinylpyrrolidone, polypropylene The mixture of one or more of acid, polyacrylonitrile, epoxy resin, phenolic resin, pitch.

A kind of lithium ion battery preparation method of graphite/lithium titanate composite anode material, includes the following steps：

(1) by graphite type material, lithium titanate, organic cracking carbon carbon source according to 100：1-10：The mass ratio of 1-5 is added in nothing In solvent or organic solvent, and mixed using homogenizer, be then dried, obtain graphite/carbon source clad/ Lithium titanate composite material；

(2) composite material obtained by step (1) is heated up under atmosphere of inert gases protection with the rate of 1-20 DEG C/min It is sintered to 600-1050 DEG C, and keeps the temperature 1-10h to get graphite/lithium titanate composite anode material.

Preferably, the inorganic solvent is water, and organic solvent is alcohol organic solvent, ether organic solvent, ketone have The mixture of one or more of solvent, aromatic organic solvent.

Preferably, the alcohol organic solvent be methanol, ethyl alcohol, ethylene glycol, normal propyl alcohol, isopropanol, propylene glycol, the third three It is one or more in alcohol, n-butanol, isobutanol；Ether organic solvent is ether, positive propyl ether, one kind in n-butyl ether or more Kind；Organic solvent of ketone is acetone, one or more in butanone, pentanone；Aromatic organic solvent is benzene, toluene, diformazan It is one or more in benzene, ethylo benzene.

Preferably, the inert gas is the mixed gas of one or more of nitrogen, argon gas, helium.

The beneficial effects of the invention are as follows：

(1) present invention by lithium titanate particle tight bond on the cracking carbon-coating of graphite core surface, it is not easily to fall off, formed Firm clad advantageously reduces contact area, increase lithium titanate material and the electrolysis at graphite material interface and electrolyte The contact area of liquid so as to reduce the generation thickness of SEI films, enhancing lithium ion diffusion rate, improves the peace of graphite cathode material Quan Xing, high rate performance, cycle performance.

(2) present invention using industrially obtain it is widely used be dispersed with stirring, dry, the conventional means such as high temperature sintering, Preparing has using graphite type material as the graphite/lithium titanate Compound Negative of kernel, lithium titanate and carbon material clad for shell mechanism Pole material, the preparation method is simple for process controllable, of low cost, is easy to mass industrial production.

Description of the drawings

In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, to embodiment or will show below There is attached drawing needed in technology description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention, for those of ordinary skill in the art, without creative efforts, can be with Other attached drawings are obtained according to these attached drawings.

Fig. 1 is the structure diagram of graphite/lithium titanate composite anode material of embodiment 1；

Fig. 2 is the scanning electron microscope sem figure of graphite/lithium titanate composite anode material of embodiment 1.

Specific embodiment

Purpose, technical scheme and advantage to make the embodiment of the present invention are clearer, below in conjunction with the embodiment of the present invention, Technical solution in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is the present invention one Divide embodiment, instead of all the embodiments.Based on the embodiments of the present invention, those of ordinary skill in the art are not making All other embodiments obtained under the premise of creative work, shall fall within the protection scope of the present invention.

Embodiment 1：

A kind of lithium ion battery preparation method of graphite/lithium titanate composite anode material, includes the following steps：

(1) by native graphite powder material (grain size is 20 μm, and purity is 99.5%), lithium titanate powdery material (grain size For 100nm, purity 99.5%), polyethylene glycol material is according to 100：10：5 mass ratio is added in into water, and uses high-speed stirring The machine of mixing is mixed, and is then spray-dried, and obtains graphite/organic carbon source clad/lithium titanate composite material；

(2) by the composite material obtained by step (1) in the case where nitrogen protective atmosphere encloses protection, with 5 DEG C/min speed in high temperature furnace Rate is warming up to 850 DEG C and is sintered, and keeps the temperature 4h to get graphite/lithium titanate composite anode material.

Embodiment 2：

A kind of lithium ion battery preparation method of graphite/lithium titanate composite anode material, includes the following steps：

(1) by native graphite powder material (grain size be 25 μm, purity 99.0%), lithium titanate powdery material, (grain size is 200nm, purity 99.5%), polyethylene glycol material is according to 100：5：5 mass ratio is added in into water, and uses high-speed stirred Machine is mixed, and is then spray-dried, and obtains graphite/organic carbon source clad/lithium titanate composite material；

(2) by the composite material obtained by step (1) in the case where nitrogen protective atmosphere encloses, with 10 DEG C/min rate liters in high temperature furnace Temperature is sintered, and keep the temperature 2h to get graphite/lithium titanate composite anode material to 900 DEG C.

Embodiment 3：

A kind of lithium ion battery preparation method of graphite/lithium titanate composite anode material, includes the following steps：

(1) by native graphite powder material (grain size be 30 μm, purity 99.5%), lithium titanate powdery material, (grain size is 400nm, purity 99.5%), polyacrylic acid material is according to 100：1：2 mass ratio is added in into ethyl alcohol, and uses high-speed stirring The machine of mixing is mixed, and is then spray-dried, and obtains graphite/organic carbon source clad/lithium titanate composite material；

(2) by the composite material obtained by step (1) in the case where argon gas protects atmosphere, with 15 DEG C/min rate liters in high temperature furnace Temperature is sintered, and keep the temperature 1h to get graphite/lithium titanate composite anode material to 700 DEG C.

Embodiment 4：

A kind of lithium ion battery preparation method of graphite/lithium titanate composite anode material, includes the following steps：

(1) by carbonaceous mesophase spherules (grain size be 10 μm, purity 99.5%), lithium titanate powdery material (grain size 50nm, Purity be 99.5%), phenolic resin material is according to 100：3：1 mass ratio is added in into acetone, and using homogenizer into Row mixing, is then spray-dried, obtains graphite/organic carbon source clad/lithium titanate composite material；

(2) by the composite material obtained by step (1) in the case where argon gas protects atmosphere, with 20 DEG C/min rate liters in high temperature furnace Temperature is sintered, and protect 7h to get graphite/lithium titanate composite anode material to 1050 DEG C.

Embodiment 5：

In the present embodiment, by the native graphite powder material in step (1) in embodiment 1 replace with grain size for 20 μm, it is pure The Delanium powder material for 99.5% is spent, other preparation processes remain unchanged.

Embodiment 6：

In the present embodiment, the polyethylene glycol material in step (1) in embodiment 1 is replaced with into polyvinylpyrrolidone material Material, other preparation processes remain unchanged.

Comparative example 1：

Use the native graphite powder material as a comparison case 1 that grain size is 99.5% for 20 μm, purity.

Comparative example 2：

Use the lithium titanate powdery material as a comparison case 2 that grain size is 99.5% for 100nm, purity.

Performance test：

By the powder in graphite/lithium titanate composite anode material in 1-6 of the embodiment of the present invention and comparative example 1, comparative example 2 Material is tested for the property, and test result is as shown in table 1.

Table 1：

Graphite obtained through the embodiment of the present invention/lithium titanate composite negative pole material it can be seen from more than test result Compared with comparative example, high rate performance and cycle performance are largely increased material.Reason can be attributed to lithium titanate material particle because Tight bond is not easily to fall off on the cracking carbon-coating of graphite surface, forms firm lithium titanate clad, reduces graphite The contact area of material interface and electrolyte reduces the generation thickness of SEI films and enhances lithium ion diffusion rate, so as to improve The high rate performance and cycle performance of composite material.

The above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations；Although with reference to the foregoing embodiments The present invention is described in detail, it will be understood by those of ordinary skill in the art that：It still can be to aforementioned each implementation Technical solution recorded in example modifies or carries out equivalent replacement to which part technical characteristic；And these modification or It replaces, the spirit and scope for various embodiments of the present invention technical solution that it does not separate the essence of the corresponding technical solution.

Claims (8)

1. a kind of lithium ion battery graphite/lithium titanate composite anode material, it is characterised in that：

Graphite/the lithium titanate anode material is to form lithium titanate and organic cracking carbon coating in graphite type material particle surface Layer forms using graphite type material as kernel, is multiple as graphite/lithium titanate of shell mechanism with organic cracking carbon coating layer using lithium titanate Condensation material；

The raw material for being used to prepare the graphite/lithium titanate composite anode material includes graphite type material, lithium titanate, organic cracking carbon Carbon source；The graphite type material, lithium titanate, organic cracking carbon carbon source mass ratio be 100：1-10：1-5.

2. lithium ion battery according to claim 1 graphite/lithium titanate composite anode material, which is characterized in that described Graphite type material be one kind or at least two mixture in native graphite, Delanium, carbonaceous mesophase spherules and soft charcoal, Its grain size is 5-30 μm, purity >=99%.

3. lithium ion battery according to claim 1 graphite/lithium titanate composite anode material, which is characterized in that described Lithium titanate grain size for 10-500nm, purity >=99.0%.

4. lithium ion battery according to claim 1 graphite/lithium titanate composite anode material, which is characterized in that described Organic cracking carbon carbon source is glucose, sucrose, polyethylene glycol, polyvinylpyrrolidone, polyacrylic acid, polyacrylonitrile, asphalt mixtures modified by epoxy resin The mixture of one or more of fat, phenolic resin, pitch.

5. a kind of lithium ion battery preparation method of graphite/lithium titanate composite anode material, which is characterized in that including following step Suddenly：

(1) by graphite type material, lithium titanate, organic cracking carbon carbon source according to 100：1-10：The mass ratio of 1-5 is added in inorganic molten It in agent or organic solvent, and is mixed using homogenizer, is then dried, obtain graphite/carbon source clad/metatitanic acid Lithium composite material；

(2) composite material obtained by step (1) is warming up under atmosphere of inert gases protection with the rate of 1-20 DEG C/min 600-1050 DEG C is sintered, and keeps the temperature 1-10h to get graphite/lithium titanate composite anode material.

6. the lithium ion battery according to claim 5 preparation method of graphite/lithium titanate composite anode material, feature It is, the inorganic solvent is water, and organic solvent is alcohol organic solvent, ether organic solvent, organic solvent of ketone, fragrance The mixture of one or more of same clan's organic solvent.

7. the lithium ion battery according to claim 6 preparation method of graphite/lithium titanate composite anode material, feature Be, the alcohol organic solvent for methanol, ethyl alcohol, ethylene glycol, normal propyl alcohol, isopropanol, propylene glycol, glycerine, n-butanol, It is one or more in isobutanol；Ether organic solvent is ether, one or more in positive propyl ether, n-butyl ether；Ketone is organic Solvent is acetone, one or more in butanone, pentanone；Aromatic organic solvent is benzene,toluene,xylene, in ethylo benzene It is one or more.

8. the lithium ion battery according to claim 5 preparation method of graphite/lithium titanate composite anode material, feature It is, the inert gas is the mixed gas of one or more of nitrogen, argon gas, helium.