CN108630993A - A kind of mixing carbon material makees the lithium double ion full battery of positive and negative anodes - Google Patents

Abstract

The invention discloses a kind of preparation methods of lithium double ion full battery that making positive and negative anodes with mixing carbon material, the described method comprises the following steps：Mixing carbon material is prepared first；Again mixing carbon positive and negative electrode is prepared with mixing carbon material；Then lithium salt electrolyte is prepared；Mixing carbon positive and negative electrode and lithium salt electrolyte are finally assembled into full battery.The positive and negative anodes carbon material that the present invention uses is easy to get, is cheap, environmentally friendly, and mixing carbon material is mixed using various carbon materials, and stable structure is not consumed in charge and discharge process and is not lost, and long-term cycle stability is good, and high rate performance is good.

Description

A kind of mixing carbon material makees the lithium double ion full battery of positive and negative anodes

Technical field

The present invention relates to the lithium double ion full batteries that positive and negative anodes are made in field more particularly to a kind of mixing carbon material.

Background technology

Lithium ion battery (LIBs) is due to its relatively high discharge voltage, energy density and good power-performance, institute It is applied to portable electronic product and network storage with ubiquitous.With modern science and technology progress and demand, high-energy is developed Density, the Novel rechargeable battery system of low cost are of increased attention.At present market-oriented lithium from Sub- battery generally uses cobalt acid lithium, LiMn2O4, LiFePO4 and ternary material etc. to be used as positive electrode, these material prices high It is expensive so that lithium ion battery cost is higher.Furthermore due to organic electrolysis plastidome etc., the internal resistance of cell is relatively large, cannot Heavy-current discharge.

Dual-ion cell (DIBs) has had been found to several as the electrical energy storage device of a kind of high-energy and low cost 10 years.Under normal conditions, Dual-ion cell charging process by promote anion and cation be respectively embedded into the electrolytic solution Into anode and cathode, discharge process is then on the contrary.

Invention content

To solve the problems such as commercialization is also not implemented in the of high cost and Dual-ion cell that current lithium ion battery still has, The present invention provides a kind of positive and negative pole materials with the preparation method of the lithium double ion full battery of mixing carbon material.

To achieve the above object, the technical solution adopted in the present invention is：A kind of lithium for making positive and negative anodes with mixing carbon material The preparation method of double ion full battery, the described method comprises the following steps：

Prepare mixing carbon material；

Mixing carbon positive and negative electrode is prepared with mixing carbon material；

Prepare lithium salt electrolyte；

Mixing carbon positive and negative electrode and lithium salt electrolyte are assembled into full battery.

Further, the method for preparing mixing carbon material is by two or more carbon materials or/and metallic compound It is mixed by a certain percentage；Then 10-15h is ground under exhausted water environment；Again with 2-5 DEG C of heating under protective gas atmosphere Rate is warming up to 80-150 DEG C, and then constant temperature handles 10-20h, obtains mixing carbon material.

Further, the carbon material is graphene, graphene oxide, graphite, graphite powder, nano-graphite, nano-graphite Powder, carbon nanotube, active powdered carbon, expanded graphite, expanded graphite alkene, three-dimensional grapheme, carbon black, soft carbon, graphite nodule etc..

Further, the metallic compound is metal oxide, metal sulfide etc..

Further, the preparation mixing carbon positive and negative electrode method is that will mix carbon material：Acetylene black：Carboxymethyl cellulose It is 8 in mass ratio：0.5-2：0.5-2 is uniformly mixed；Then mixture is dissolved in ethyl alcohol：The mass ratio of H2O is 1：1-3's In mixed solution and continue to stir 10-24h；Then mixture is distinguished on even spread to positive and negative anodes substrate, and at 50-80 DEG C Vacuum drying oven under dry 5-24h, obtain carbon positive and negative electrode.

Further, the coated substrate in the mixing carbon positive electrode is aluminium foil, and the average weight for mixing carbon material is about 0.3-10mg/cm², the coated substrate mixed in carbon negative electrode is copper foil, and the average weight for mixing carbon material is about 0.3- 10mg/cm²。

Further, the preparation lithium salt electrolyte method is that the lithium salts electrolyte of 0.01-10M is dissolved in solvent, shape At uniform lithium salt electrolyte.

Further, the lithium salts electrolyte is lithium fluoride (LiF), lithium hexafluoro phosphate (LiPF6), LiBF4 (LiBF4), one kind in lithium perchlorate (LiClO4) etc..

Further, the solvent is ethylene carbonate (EC), propene carbonate (PC), dimethyl carbonate (DMC), carbonic acid Diethylester (DEC), methyl ethyl carbonate (EMC), methyl propyl carbonate (MPC), fluorinated ethylene carbonate (FEC), 1,2- dimethoxys Two kinds in ethane (DME) are 1 by volume：1-10 (i.e. v1:V2=1：Mixed solution 1-10) mixed.

Further, the lithium double ion full battery is in H₂O<0.5ppm, O₂<Group in the ar gas environment glove box of 0.5ppm Dress.

By the above-mentioned description to structure of the invention it is found that compared to the prior art, the invention has the advantages that：

1, the positive and negative anodes carbon material that the present invention uses is easy to get, is cheap, environmentally friendly；

2, present invention mixing carbon material is mixed using various carbon materials, in conjunction with various carbon materials and the knot of metallic compound Structure advantage, stable structure, distinctive layered porous structure so that charge and discharge process metal cation is cloudy in cathode and large scale Ion makes battery provide about in positive preferably embedded and abjection, the mixing carbon material that large-scale anion is embedded into anode The high voltage platform of 4.5-5V, provides higher energy；

3, lithium Dual-ion cell positive and negative anodes electrode material of the present invention is extremely stable, does not consume in charge and discharge process and is not lost, Long-term cycle stability is good, and high rate performance is good.

Description of the drawings

The attached drawing constituted part of this application is used to provide further understanding of the present invention, schematic reality of the invention Example and its explanation are applied for explaining the present invention, is not constituted improper limitations of the present invention.In the accompanying drawings：

Fig. 1 is that the preparation process for the lithium double ion full battery that mixing carbon material provided by the invention makees positive and negative pole material is shown It is intended to；

Fig. 2 is the SEM photograph of mixing carbon material provided by the invention；

Fig. 3 is the typical charge and discharge for the lithium double ion full battery that mixing carbon material provided by the invention makees positive and negative pole material Curve graph；

Fig. 4 is that mixing carbon material provided by the invention makees the lithium double ion full battery of positive and negative pole material in 1000mA/g electricity Long-term cycle stability under current density can be schemed.

Specific implementation mode

In order to make the purpose , technical scheme and advantage of the present invention be clearer, with reference to the accompanying drawings and embodiments, right The present invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and It is not used in the restriction present invention.

The present invention provides a kind of preparation method of lithium double ion full battery that making positive and negative pole material with carbon mixing material, institutes Lithium double ion full battery is stated using mixing carbon material as positive and negative pole material, 0.01-10M lithium salts is as electrolyte；The mixing Carbon material be graphene, graphene oxide, graphite, graphite powder, nano-graphite, nano graphite powder, carbon nanotube, active powdered carbon, At least two in the metal oxide and metal sulfide mixtures mixed；The electrolyte is lithium fluoride (LiF), six Lithium fluophosphate (LiPF₆), LiBF4 (LiBF₄), lithium perchlorate (LiClO₄At least one of) etc..

As shown in Figure 1, lithium double ion full battery provided by the invention adopts the following technical scheme that：

S01 prepares mixing carbon material；

Two or more carbon materials or/and metallic compound are mixed by a certain percentage, then under exhausted water environment 10-15h is ground, then 80-150 DEG C is warming up to 2-5 DEG C of heating rate under protective gas atmosphere, then constant temperature handles 10- 20h obtains mixing carbon material；Wherein, carbon material is graphene, graphene oxide, graphite, graphite powder, nano-graphite, nanometer stone Ink powder, carbon nanotube, active powdered carbon, expanded graphite, expanded graphite alkene, three-dimensional grapheme, carbon black, soft carbon, graphite nodule etc.；Metal Compound is metal oxide metal oxide (such as NiCoO₄), metal sulfide (such as MoS₂) etc.；

S02 prepares mixing carbon positive and negative electrode；

The mixing carbon material that S101 is obtained：Acetylene black：Carboxymethyl cellulose is 8 in mass ratio：0.5-2：0.5-2 is carried out Uniformly mixing；Then mixture is dissolved in ethyl alcohol：H₂In the mixed solution that the mass ratio of O is and continue to stir 10-24h；Then Mixture is distinguished on even spread to positive and negative anodes substrate, and the dry 5-24h under 50-80 DEG C of vacuum drying oven, obtains mixing carbon Positive and negative electrode；Wherein, it is aluminium foil to mix the coated substrate in carbon positive electrode, mixes being averaged for the mixing carbon material in carbon positive electrode Weight is about 0.3-10mg/cm²；It is copper foil to mix the coated substrate in carbon negative electrode；Mix the mixing carbon materials in carbon negative electrode The average weight of material is about 0.3-10mg/cm²；

S03 prepares lithium salt electrolyte；

The lithium salts electrolyte of 0.01-10M is dissolved in solvent, uniform lithium salt electrolyte is formed；Wherein lithium salts electrolyte For lithium fluoride (LiF), lithium hexafluoro phosphate (LiPF₆), LiBF4 (LiBF₄), lithium perchlorate (LiClO₄) etc. in one kind； Solvent is ethylene carbonate (EC), propene carbonate (PC), dimethyl carbonate (DMC), diethyl carbonate (DEC), methyl ethyl carbonate Two kinds in ester (EMC), methyl propyl carbonate (MPC), fluorinated ethylene carbonate (FEC), 1,2- dimethoxy-ethanes (DME) are pressed body Product is than being 1：1-10 (i.e. v1:V2=1：Mixed solution 1-10) mixed；

Mixing carbon positive and negative electrode and lithium salt electrolyte are assembled into full battery by S04；

In H₂O<0.5ppm, O₂<The assembling of lithium Dual-ion cell is completed in the ar gas environment glove box of 0.5ppm；

The positive and negative anodes carbon material that the present invention uses is easy to get, is cheap, environmentally friendly；It mixes carbon material and utilizes a variety of carbon Material mixes, in conjunction with various carbon materials and the structural advantage of metallic compound, stable structure, distinctive layered porous structure So that charge and discharge process metal cation in cathode and large-scale anion in positive preferably embedded and abjection, large scale the moon from Son is embedded into the high voltage platform that the mixing carbon material of anode makes battery provide about 4.5-5V, provides higher energy；Lithium Dual-ion cell positive and negative anodes electrode material is extremely stable, does not consume in charge and discharge process and is not lost, and long-term cycle stability is good, times Rate excellent performance.

Embodiment 1

S01 prepares mixing carbon material:

It is 6 by weight by graphene and nano-graphene：4 are mixed, and 12h is then ground under exhausted water environment, then 100 DEG C are warming up to 3 DEG C of heating rate under protective gas atmosphere, then constant temperature handles 15h, obtains mixing carbon material；

S02 prepares mixing carbon positive and negative electrode；

The mixing carbon material that S01 is obtained：Acetylene black：Carboxymethyl cellulose is 8 in mass ratio：1：1 is uniformly mixed； Then mixture is dissolved in ethyl alcohol：H₂The mass ratio of O is 1：In 2 mixed solution and continue to stir 20h；Then mixture is pressed The average weight for mixing carbon material is about 4mg/cm²It is applied on positive substrate aluminium foil, presses the average weight of mixing carbon material about For 2mg/cm²It is applied on cathode substrate copper foil, and drying for 24 hours, obtains carbon positive and negative electrode under 70 DEG C of vacuum drying oven by them；

S03 prepares lithium hexafluoro phosphate (LiPF₆) electrolyte；

By the 1M lithium hexafluoro phosphates (LiPF of 1M₆) volume ratio is dissolved in for diethyl carbonate (DEC)：Dimethyl carbonate (DMC) =6：4(v1:V2=6:4) in mixed solution；

Mixing carbon positive and negative electrode and lithium salt electrolyte are assembled into full battery by S04；

In H₂O<0.5ppm, O₂<The assembling of lithium Dual-ion cell is completed in the ar gas environment glove box of 0.5ppm；

From the SEM figures of Fig. 2 mixing carbon materials provided by the invention it can be seen that mixing carbon material is by countless layer structure groups At layer structure is clearly demarcated, is evenly distributed, and is covered with porous structure between layers, this is conducive to the infiltration of electrolyte, alleviates simultaneously The electrode volume of lithiumation process expands.

As shown in Figure 3-4, the electrochemistry of lithium double ion full battery is had studied using charging and discharging curve, cyclical stability etc. Energy.Fig. 3 shows that typical charged/discharged curve graph, the charging capacity and discharge capacity of lithium double ion full battery are respectively The discharge voltage plateau of 96.8mAh/g and 93.9mAh/g and 4.5V.Fig. 4 is that lithium double ion full battery 1000mA/g high currents are close Long-term cycle stability energy under degree, still provides the high power capacity of 99.6mAh/g after 100 cycles, and discharge capacity is complete Do not decay entirely.Therefore there is high electric discharge electricity as lithium double ion full battery prepared by positive and negative pole material using mixing carbon material Flattening bench and super good long-term cycle stability energy.

Embodiment 2

S01 prepares mixing carbon material:

It is 8 by weight by graphene and molybdenum disulfide：2 are mixed, and then grind 12h under exhausted water environment, then 100 DEG C are warming up to 3 DEG C of heating rate under protective gas atmosphere, then constant temperature handles 15h, obtains mixing carbon material 1；

It is 9 in mass ratio by nano-graphite and NiCoO4：1 is mixed, and then grinds 15h under exhausted water environment, then 100 DEG C are warming up to 3 DEG C of heating rate under protective gas atmosphere, then constant temperature handles 18h, obtains mixing carbon material 2；

S02 prepares mixing carbon positive and negative electrode；

The mixing carbon material 1 that S01 is obtained：Acetylene black：Carboxymethyl cellulose is 8 in mass ratio：1：1 is uniformly mixed It closes；Then mixture is dissolved in ethyl alcohol：H₂The mass ratio of O is 1：In 2 mixed solution and continue to stir 20h；It then will mixing Object is about 4mg/cm by the average weight of mixing carbon material²It is applied on positive substrate aluminium foil；The mixing carbon material that S01 is obtained 2：Acetylene black：Carboxymethyl cellulose is 8 in mass ratio：1：1 is uniformly mixed；Then mixture is dissolved in ethyl alcohol：H₂The matter of O Amount is than being 1：In 2 mixed solution and continue stirring for 24 hours by mixing carbon material average weight be about 2mg/cm²It is applied to cathode On substrate copper foil；And drying for 24 hours, obtains mixing carbon positive and negative electrode under 80 DEG C of vacuum drying oven by them；

S03 prepares lithium hexafluoro phosphate (LiPF₆) electrolyte；

By the 1M lithium hexafluoro phosphates (LiPF of 1M₆) volume ratio is dissolved in for dimethyl phthalate (DMC)：Methyl ethyl carbonate (EMC)= 7：3(v1:V2=7:3) in mixed solution；

Mixing carbon positive and negative electrode and lithium salt electrolyte are assembled into full battery by S04；

In H₂O<0.5ppm, O₂<The assembling of lithium Dual-ion cell is completed in the ar gas environment glove box of 0.5ppm；

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 mixing carbon material makees the preparation method of the lithium double ion full battery of positive and negative anodes, it is characterised in that：The method Include the following steps：

Prepare mixing carbon material；

Mixing carbon positive and negative electrode is prepared with mixing carbon material；

Prepare lithium salt electrolyte；

Mixing carbon positive and negative electrode and lithium salt electrolyte are assembled into full battery.

2. a kind of mixing carbon material makees the lithium double ion full battery of positive and negative anodes according to claim 1, it is characterised in that：Institute It is to mix two or more carbon materials or/and metallic compound by a certain percentage to state the method for preparing mixing carbon material； Then 10-15h is ground under exhausted water environment；It is warming up to 80-150 DEG C with 2-5 DEG C of heating rate under protective gas atmosphere again, Then constant temperature handles 10-20h, obtains mixing carbon material.

3. a kind of mixing carbon material makees the lithium double ion full battery of positive and negative anodes according to claim 2, it is characterised in that：Institute It is graphene, graphene oxide, graphite, graphite powder, nano-graphite, nano graphite powder, carbon nanometer to state two or more carbon materials Pipe, active powdered carbon, expanded graphite, expanded graphite alkene, three-dimensional grapheme, carbon black, soft carbon, graphite nodule wherein two or more carbon materials Material.

4. a kind of mixing carbon material makees the lithium double ion full battery of positive and negative anodes according to claim 2, it is characterised in that：Institute It is metal oxide or metal sulfide to state metallic compound.

5. a kind of mixing carbon material makees the lithium double ion full battery of positive and negative anodes according to claim 1, it is characterised in that：Institute It is that will mix carbon material to state preparation mixing carbon positive and negative electrode method：Acetylene black：Carboxymethyl cellulose is 8 in mass ratio：0.5-2： 0.5-2 is uniformly mixed；Then mixture is dissolved in ethyl alcohol：H₂The mass ratio of O is 1：It stirs in the mixed solution of 1-3 and persistently Mix 10-24h；Then mixture is distinguished on even spread to positive and negative anodes substrate, and the dry 5- under 50-80 DEG C of vacuum drying oven For 24 hours, carbon positive and negative electrode is obtained.

6. a kind of mixing carbon material makees the lithium double ion full battery of positive and negative anodes according to claim 5, it is characterised in that：Institute The coated substrate stated in mixing carbon positive electrode is aluminium foil, and the average weight for mixing carbon material is about 0.3-10mg/cm², described mixed The coated substrate closed in carbon negative electrode is copper foil, and the average weight for mixing carbon material is about 0.3-10mg/cm²。

7. a kind of mixing carbon material makees the lithium double ion full battery of positive and negative anodes according to claim 1, it is characterised in that：Institute It is that the lithium salts electrolyte of 0.01-10M is dissolved in solvent to state and prepare lithium salt electrolyte method, forms uniform lithium salt electrolyte.

8. a kind of mixing carbon material makees the lithium double ion full battery of positive and negative anodes according to claim 7, it is characterised in that：Institute It is lithium fluoride (LiF), lithium hexafluoro phosphate (LiPF to state lithium salts electrolyte₆), LiBF4 (LiBF₄), lithium perchlorate (LiClO₄) One kind in.

9. a kind of mixing carbon material makees the lithium double ion full battery of positive and negative anodes according to claim 7, it is characterised in that：Institute It is ethylene carbonate (EC), propene carbonate (PC), dimethyl carbonate (DMC), diethyl carbonate (DEC), carbonic acid first to state solvent Two kinds in ethyl ester (EMC), methyl propyl carbonate (MPC), fluorinated ethylene carbonate (FEC), 1,2- dimethoxy-ethanes (DME) are pressed Volume ratio is 1：1-10 (i.e. v1:V2=1：Mixed solution 1-10) mixed.

10. a kind of mixing carbon material makees the lithium double ion full battery of positive and negative anodes according to claim 1, it is characterised in that： The lithium double ion full battery is in H₂O<0.5ppm, O₂<Assembling in the ar gas environment glove box of 0.5ppm.