CN105609716A - Preparation method for carbon-silicon coated lithium iron phosphate composite material for lithium ion battery - Google Patents

Abstract

The invention discloses a preparation method for a carbon-silicon coated lithium iron phosphate composite material for a lithium ion battery. According to the prepared carbon-silicon coated lithium iron phosphate composite material for the lithium ion battery, the lithium iron phosphate is coated with a material obtained by compounding porous carbon and porous silicon that are prepared by adopting a specific process; consequently, carbon and silicon are uniformly distributed in lithium iron phosphate; due to the porous structures, the coating structure is more tight; therefore, when the composite material is used for the lithium ion battery, the lithium ion battery obtains relatively high conductivity and good cycling stability; and in addition, the lithium ion battery is relatively high in specific capacity and relatively long in service life.

Description

The preparation method of carbon silicon coated lithium ferrous phosphate composite material for a kind of lithium ion battery

Affiliated technical field

The present invention relates to the preparation method of a kind of lithium ion battery carbon silicon coated lithium ferrous phosphate composite material.

Background technology

Lithium ion battery is as a kind of novel electrochmical power source, because its output voltage is high, specific energy is high, have extended cycle life, certainly putLittle, the safety of electricity, memory-less effect and environmental friendliness have become the emphasis of our times various countries in the development of new energy materials field. JustUtmost point active material is the key factor that affects performance of lithium ion battery always. Due to LiCoO₂Shortage of resources, expensive, specialBe its poor stability, limited its application in electrokinetic cell field. LiFePO4 is because of its abundant raw material, and security is good, byExtensively think the first-selected positive electrode of lithium-ion-power cell of future generation. But lithium iron phosphate positive material also have one fatalShortcoming, that is exactly that electrical conductivity is low, and this shortcoming has greatly affected LiFePO₄Application. Therefore in the urgent need to researching and developing a kind of conductionRate is high, the LiFePO of good cycle₄(LiFePO 4) composite.

Summary of the invention

For overcoming above-mentioned deficiency, the invention provides the preparation side of a kind of lithium ion battery carbon silicon coated lithium ferrous phosphate composite materialMethod, the positive electrode that uses the method to prepare, has good electric conductivity.

To achieve these goals, the system of carbon silicon coated lithium ferrous phosphate composite material for a kind of lithium ion battery provided by the inventionPreparation Method, comprises the steps:

(1) prepare porous silicon

By ethyl orthosilicate pyrolysis in the ethylene glycol solution of the organic formwork that contains softex kw, preparation porousSilica, by the porous silica that contains template that obtains filter, centrifugal, clean, dry, then 500-700 in airDEG C temperature under the heat treatment carried out 3-7 hour remove template, obtain porous silica;

Be 1:5-5:1 mixed grinding by porous silica and magnesium powder according to mass ratio, then 700-900 DEG C of heating under inert atmospherePorous silicon is prepared in reductase 12-5 hour, and the product obtaining is cleaned through watery hydrochloric acid, removes the metal oxide in product and has beenThe metallic reducing agent of full response, dry, obtain porous silicon;

(2) prepare porous carbon materials

First by 1: 1-1: 3 weight ratio, by phenolic resins and ethylene glycol mixing and stirring, adds phenolic resins and second subsequentlyThe benzene sulfonyl chloride of glycol gross weight 8-10% mixes makes mixture, and mixture is poured in mould, at 50-70 DEG C, protectsTemperature 2-5h, by the sample demoulding after just solidifying, carries out deeply-curing processing to sample, is incubated 10-12h in the time of initial temperature 60-80 DEG C,Then 15 DEG C of insulation 6-8h of the every increase of temperature, are incubated 8～16h until temperature rises to 150-180 DEG C, again at N₂Under protection, carry out carbonChange, rise to 600 DEG C by room temperature, insulation 1h, heating rate is 1-5 DEG C/min, cools to room temperature with the furnace after completing carbonization, finalStop for N₂, obtain the porous carbon materials that average pore size is less than 300nm;

(3) prepare porous carbon/silicon composite

By above-mentioned porous silicon and porous carbon according to the ratio mechanical mixture of mass ratio 3:1-1:3, then by mixture with contain phenolic aldehyde treeThe formalin of fat is mixed, and carries out subsequently pyrolysis under inert atmosphere, and pyrolysis temperature is 800-1000 DEG C, and pyrolysis time is 5-8Hour, prepare porous silicon/carbon composite material;

(4) sintering obtains the coated lithium ferrous phosphate composite material of carbon silicon

By LiFePO₄The lithium metasilicate aqueous solution that is placed in mass concentration and is 25-30% soaks 1-3h, and fully stirs, by solution waterDivide evaporation, by the LiFePO after soaking₄Roasting 2-5h at 400-450 DEG C, at the LiFePO through roasting gained₄In powder, addThe above-mentioned porous silicon/carbon composite material that to enter with respect to the content of LiFePO4 be 3-7wt%, after ball milling mixes in tube furnaceHeating, heating-up temperature is 1200-1500 DEG C, the heat time is 1-2h, obtains the coated ferrous phosphate lithium composite of carbon silicon after coolingMaterial.

The coated lithium ferrous phosphate composite material of carbon silicon for lithium ion battery prepared by the present invention, has adopted prepared by special process manyMaterial after hole carbon and porous silicon are compound is coated LiFePO 4, and carbon silicon is distributed in LiFePO 4 uniformly,Loose structure makes clad structure more tight especially, and therefore this composite, when for lithium ion battery, has higher leadingElectrical property and good cyclical stability, make lithium ion battery have high specific capacity and longer service life.

Detailed description of the invention

Embodiment mono-

Prepare porous silicon

By ethyl orthosilicate pyrolysis in the ethylene glycol solution of the organic formwork that contains softex kw, preparation porousSilica, by the porous silica that contains template that obtains filter, centrifugal, clean, dry, then in air 700DEG C temperature under the heat treatment carried out 3 hours remove template, obtain porous silica; By porous silica and magnesium powder according toMass ratio is 5:1 mixed grinding, and then under inert atmosphere, 900 DEG C of heat reductions are prepared porous silicon for 2 hours, by the product obtainingClean through watery hydrochloric acid, remove the metal oxide in product and be the metallic reducing agent of complete reaction, be dried, obtain porous silicon.

Prepare porous carbon materials

First press the weight ratio of 1: 3 by phenolic resins and ethylene glycol mixing and stirring, add subsequently phenolic resins and ethylene glycol totalThe benzene sulfonyl chloride of weight 10% mixes makes mixture, and mixture is poured in mould, at 70 DEG C, is incubated 5h, willThe sample demoulding after just solidifying, carries out deeply-curing processing to sample, in the time of 80 DEG C of initial temperatures, is incubated 12h, and then temperature is everyIncrease by 15 DEG C of insulation 6h, be incubated again 8h until temperature rises to 180 DEG C, at N₂Under protection, carry out carbonization, rise to 600 by room temperatureDEG C, insulation 1h, heating rate is 5 DEG C/min, cools to room temperature with the furnace after completing carbonization, finally stops for N₂, obtain averageAperture is less than the porous carbon materials of 300nm.

Prepare porous carbon/silicon composite

By above-mentioned porous silicon and porous carbon according to the ratio mechanical mixture of mass ratio 1:3, then by mixture with contain phenolic resinsFormalin mix, under inert atmosphere, carry out subsequently pyrolysis, pyrolysis temperature is 1000 DEG C, pyrolysis time is 5 hours, systemFor going out porous silicon/carbon composite material.

Sintering obtains the coated lithium ferrous phosphate composite material of carbon silicon

By LiFePO₄Be placed in mass concentration and be 30% the lithium metasilicate aqueous solution and soak 1h, and fully stir, solution moisture content testing is steamedSend out, by the LiFePO after soaking₄Roasting 2h at 450 DEG C, at the LiFePO through roasting gained₄In powder, add with respect toThe content of LiFePO4 is the above-mentioned porous silicon/carbon composite material of 7wt%, heats heating after ball milling mixes in tube furnaceTemperature is 1500 DEG C, and the heat time is 1h, obtains the coated lithium ferrous phosphate composite material of carbon silicon after cooling.

Embodiment bis-

Prepare porous silicon

By ethyl orthosilicate pyrolysis in the ethylene glycol solution of the organic formwork that contains softex kw, preparation porousSilica, by the porous silica that contains template that obtains filter, centrifugal, clean, dry, then in air 500DEG C temperature under the heat treatment carried out 7 hours remove template, obtain porous silica; By porous silica and magnesium powder according toMass ratio is 1:5 mixed grinding, and then under inert atmosphere, 700 DEG C of heat reductions are prepared porous silicon for 5 hours, by the product obtainingClean through watery hydrochloric acid, remove the metal oxide in product and be the metallic reducing agent of complete reaction, be dried, obtain porous silicon.

Prepare porous carbon materials

First press the weight ratio of 1: 1 by phenolic resins and ethylene glycol mixing and stirring, add subsequently phenolic resins and ethylene glycol totalThe benzene sulfonyl chloride of weight 8% mixes makes mixture, and mixture is poured in mould, at 50 DEG C, is incubated 5h, at the beginning of inciting somebody to actionThe sample demoulding after solidifying, carries out deeply-curing processing to sample, is incubated 12h, the then every increasing of temperature in the time of 60 DEG C of initial temperaturesAdd 15 DEG C of insulation 8h, be incubated again 16h until temperature rises to 150 DEG C, at N₂Under protection, carry out carbonization, rise to 600 DEG C by room temperature,Insulation 1h, heating rate is 1 DEG C/min, cools to room temperature with the furnace after completing carbonization, finally stops for N₂, obtain average pore sizeBe less than the porous carbon materials of 300nm.

Prepare porous carbon/silicon composite

By above-mentioned porous silicon and porous carbon according to the ratio mechanical mixture of mass ratio 3:1, then by mixture with contain phenolic resinsFormalin mix, under inert atmosphere, carry out subsequently pyrolysis, pyrolysis temperature is 800 DEG C, pyrolysis time is 8 hours, systemFor going out porous silicon/carbon composite material.

Sintering obtains the coated lithium ferrous phosphate composite material of carbon silicon

By LiFePO₄Be placed in mass concentration and be 25% the lithium metasilicate aqueous solution and soak 3h, and fully stir, solution moisture content testing is steamedSend out, by the LiFePO after soaking₄Roasting 5h at 400 DEG C, at the LiFePO through roasting gained₄In powder, add with respect toThe content of LiFePO4 is the above-mentioned porous silicon/carbon composite material of 3wt%, heats heating after ball milling mixes in tube furnaceTemperature is 1200 DEG C, and the heat time is 2h, obtains the coated lithium ferrous phosphate composite material of carbon silicon after cooling.

Comparative example

By common commercially available LiFePO₄Be placed in mass concentration and be 20% alumina silicate and soak 3h, and fully stir, by solution moisture content testingEvaporation; By the LiFePO after soaking₄Roasting 2h at 500 DEG C; (3) at the LiFePO through roasting gained₄In powder, add relativelyIn LiFePO₄Content be 5wt% particle diameter is the SiC of 100 μ m, the mixture obtaining is being heated in micro-wave oven, micro-Wave power is adjusted to 500W, and the control time is 25 minutes

By above-described embodiment one, two and comparative example products therefrom and conductive black and adhesive Kynoar with mass ratio 80:The ratio of 10: 10 is mixed, and is compressed on nickel screen, 150 DEG C of vacuum drying 24 hours, as working electrode. Reference electrode isLithium metal, electrolyte is 1mol/lLiPF₆EC/DEC/DMC (volume ratio 1: 1: 1). Be to enter at 25 DEG C at probe temperatureRow electric performance test, after tested this embodiment mono-with two the product of material and comparative example compared with, specific capacity has improved 35-45%,Improve service life more than 1.7 times.

Claims (1)

1. a preparation method for carbon silicon coated lithium ferrous phosphate composite material for lithium ion battery, comprises the steps:

(1) prepare porous silicon

By ethyl orthosilicate pyrolysis in the ethylene glycol solution of the organic formwork that contains softex kw, preparation porousSilica, by the porous silica that contains template that obtains filter, centrifugal, clean, dry, then 500-700 in airDEG C temperature under the heat treatment carried out 3-7 hour remove template, obtain porous silica;

Be 1:5-5:1 mixed grinding by porous silica and magnesium powder according to mass ratio, then 700-900 DEG C under inert atmosphereHeat reduction 2-5 hour prepares porous silicon, and the product obtaining is cleaned through watery hydrochloric acid, remove metal oxide in product andFor the metallic reducing agent of complete reaction, dry, obtain porous silicon;

(2) prepare porous carbon materials

First by 1: 1-1: 3 weight ratio, by phenolic resins and ethylene glycol mixing and stirring, adds phenolic resins and second subsequentlyThe benzene sulfonyl chloride of glycol gross weight 8-10% mixes makes mixture, mixture is poured in mould, at 50-70 DEG CInsulation 2-5h, by the sample demoulding after just solidifying, carries out deeply-curing processing to sample, insulation in the time of initial temperature 60-80 DEG C10-12h, then 15 DEG C of insulation 6-8h of the every increase of temperature, are incubated 8～16h until temperature rises to 150-180 DEG C, again at N₂ProtectionUnder carry out carbonization, rise to 600 DEG C by room temperature, insulation 1h, heating rate is 1-5 DEG C/min, cools to the furnace after completing carbonizationRoom temperature, finally stops for N₂, obtain the porous carbon materials that average pore size is less than 300nm;

(3) prepare porous carbon/silicon composite

By above-mentioned porous silicon and porous carbon according to the ratio mechanical mixture of mass ratio 3:1-1:3, then by mixture with contain phenolic aldehydeThe formalin of resin is mixed, and carries out subsequently pyrolysis under inert atmosphere, and pyrolysis temperature is 800-1000 DEG C, and pyrolysis time is 5-8Hour, prepare porous silicon/carbon composite material;

(4) sintering obtains the coated lithium ferrous phosphate composite material of carbon silicon

By LiFePO₄The lithium metasilicate aqueous solution that is placed in mass concentration and is 25-30% soaks 1-3h, and fully stirs, by solution waterDivide evaporation, by the LiFePO after soaking₄Roasting 2-5h at 400-450 DEG C, at the LiFePO through roasting gained₄In powder, addThe above-mentioned porous silicon/carbon composite material that to enter with respect to the content of LiFePO4 be 3-7wt%, after ball milling mixes in tube furnaceHeating, heating-up temperature is 1200-1500 DEG C, the heat time is 1-2h, obtains the coated LiFePO 4 of carbon silicon after cooling compoundMaterial.