CN1837033A

CN1837033A - Process for synthesizing LiFePO4 as positive electrode materials of lithium ion cell

Info

Publication number: CN1837033A
Application number: CNA2006100433501A
Authority: CN
Inventors: 谷亦杰; 黄小文; 崔洪芝
Original assignee: Shandong University of Science and Technology
Current assignee: Shandong University of Science and Technology
Priority date: 2006-03-24
Filing date: 2006-03-24
Publication date: 2006-09-27
Anticipated expiration: 2026-03-24
Also published as: CN100413781C

Abstract

The invention discloses a Synthesis of lithium ferrous phosphate which is anode material of lithium ion battery. The material synthesis is as follows: geeting lithium salt, malysite and mammonium dihydrogen phosphate, according to the mole ratio of lithium ion: iron ion: phosphate radical ion is (0.8-1.2):(0.8-1.2):(0.8-1.2), getting compound A of equal proportion, joining some compound A in aqueous solution B which contains soluble salt and soluble organic species, putting it in high temperature furnace, then cooling naturely, compounding ferrous phosphate powder containing carbon and adulterating metal ion, milling the synthetical aqueous lithium solution powder, controllong the grain diameter between 1-50 mum. The synthetical material of this invention distribute equally, using this material as positive material can improve batteries' charging capacity effectively.

Description

The synthetic method of lithium ferrous phosphate as anode material of lithium ion battery

Technical field

The present invention relates to anode material for lithium-ion batteries, especially refer to the synthetic method of lithium ferrous phosphate as anode material of lithium ion battery.

Background technology

Lithium ion battery is being subjected to extensive attention for over ten years as the green high-capacity power supply, characteristics such as it has the energy density height, cyclicity is good and self-discharge rate is low.Battery circle generally believes LiFePO 4 (molecular formula: LiFePO in recent years ₄) be one of best novel anode material of high-energy power battery, in order to improve the capacity of LiFePO 4, generally take in building-up process, to add carbon and doped metal ion.Chinese patent publication number (the patent No.: 200410039176.4) disclose a kind of preparation method of lithium ferrous phosphate as anode material of lithium ion battery; it is with lithium salts; ferrous salt; phosphoric acid salt and additive are put into Equipment for Heating Processing behind the uniform mixing in proportion; flow velocity be the 0.01-50 liter/minute inert gas protection in zone heating handle; temperature rise rate is 1-20 ℃/mi; when temperature to be heated rises to 200-400 ℃; holding temperature is constant; thermostatically heating 1-30 hour; continue then to heat up; carry out pyroprocessing; at 500-850 ℃ of constant temperature 10-48 hour, be cooled to room temperature then, make ferrous phosphate doping lithium anode material.This preparation method is simple to operate, be easy to control, prepared product has good conductivity, weak point is: because the carbon that adds adds with the solid form, the amount of mingling is fewer, so be not easy to mix, mix not thorough, thereby make in the synthetic ferrous phosphate positive electrode material inhomogeneous, can not improve the capacity of material effectively.

Summary of the invention

The objective of the invention is to overcome the deficiencies in the prior art, provide that a kind of generated time is short, the synthetic method of the uniform heavy body ferrous phosphate lithium battery anode material of synthetic materials.

Technical scheme of the present invention is

1, get lithium salts, molysite, primary ammonium phosphate, in lithium ion: iron ion: the phosphate anion mol ratio is (0.8-1.2): (0.8-1.2): ratio uniform mixing (0.8-1.2) obtains mixture A, wherein:

Lithium salts is wherein a kind of of Quilonum Retard, lithium hydroxide, phosphoric acid hydrogen two lithiums, Lithium Sulphate, Lithium Acetate, lithium nitrate and lithium oxalate.

Molysite is ferrous acetate or Ferrox.

2, above-mentioned a certain amount of mixture A is put into a certain amount of aqueous solution B that contains solubility salt and the organic class of solubility, after evenly stirring, put into High Temperature Furnaces Heating Apparatus, in non-air or non-oxidizing atmosphere, temperature rise rate heating with 1-30 ℃/min, the insulation 0-100h time when temperature rises to the 50-200 ℃ of left and right sides, the high more time of temperature is short more, carry out pyroprocessing according to existing one section or zone heating method then, naturally cooling, the synthetic ferrous phosphate powder that contains carbon simple substance (representing with C) and doped metal ion (representing with M) (is used Li _xFe _yM _zPO ₄Expression), the x in the formula, y, z value are decided according to respective substance addition content under the following conditions;

(1) mass ratio of aqueous solution B and mixture A be=(0.1-10): 1;

(2) comprise at least in the solubility salt among the aqueous solution B: a kind of in nitrate, acetate, vitriol and the hydrochloride of metallic elements such as aluminium, titanium, magnesium, zirconium, vanadium, manganese, nickel, cobalt, niobium, rhodium, barium, chromium, its addition content must meet following condition: molar ratio≤0.3 of lithium ion in the metal ion in the solubility salt (M) and the lithium salts;

(3) the organic class material of the solubility among the aqueous solution B comprises at least: sucrose, glucose and can be decomposed into a kind of in the soluble high-molecular compound with good electric conductivity carbon class material through pyrolysis, its addition content must meet following condition: carbon simple substance and Li in the final synthetics _xFe _yM _zPO ₄Quality ratio≤10;

3, above synthetic ferrous phosphate lithium powder is levigate, particle diameter is controlled between the 1-50um.

The present invention is owing to adopt above-mentioned solution blending means, so mix easily, blended is thorough, thereby makes the distribution of material after synthetic more even, when adopting this material as the positive electrode material of lithium ion battery, can improve the charging capacity of battery effectively.

Embodiment

In order to be illustrated more clearly in the present invention, enumerate following examples, but it there is not any restriction to the present invention.

Embodiment one:

(1) at first lithium oxalate, Ferrox and three kinds of materials of primary ammonium phosphate in lithium ion: iron ion: the phosphate anion mol ratio is that 1: 1: 1 ratio uniform mixing obtains mixture A

(2) getting mixture A 1kg puts into the aqueous solution B that 1kg contains glucose and zirconium nitrate and stirs, under nitrogen atmosphere, temperature rise rate heating with 20 ℃/min, insulation 5h when temperature reaches 100 ℃ of left and right sides, continue to heat up then, in 700 ℃ of constant temperature 10 hours, naturally cooling, the synthetic ferrous phosphate lithium powder that contains carbon simple substance and doping metals zirconium ion, wherein:

Contain glucose 10g, zirconium nitrate (Zr (NO among the aqueous solution B of requirement 1kg ₃) ₄) 1g (about 0.003 mole);

According to step (1) as can be known 1kg mixture A contain 1.62 moles lithium oxalate (Li ₂C ₂O ₄Molecular weight 102), 3.24 moles of Ferrox (FeC ₂O ₄143) and 3.24 mole of phosphoric acid ammonium dihydrogen (NH molecular weight: ₄H ₂PO ₄Molecular weight: 115), so last synthetic contains the ferrous phosphate doping lithium anode material LiFeZr of carbon simple substance and doping metals zirconium ion _0.0009PO ₄Expression;

(3) synthetic LiFePO 4 powder art is levigate, particle diameter is controlled between the 1-50um.

Embodiment two:

(1) at first with Quilonum Retard, Ferrox and three kinds of materials of primary ammonium phosphate in lithium ion: iron ion: the phosphate anion mol ratio is that 1: 1: 1 ratio uniform mixing obtains mixture A

(2) getting 1kg mixture A puts into the aqueous solution B that 1kg contains polyvinyl alcohol and magnesium nitrate and stirs, under nitrogen atmosphere, temperature rise rate heating with 30 ℃/min, insulation 4h continues heat temperature raising when temperature is raised to 110 ℃ of left and right sides, and constant temperature is 5 hours when temperature reaches 300 ℃, continued to be warming up to 700 ℃ of constant temperature then 5 hours, naturally cooling, the synthetic ferrous phosphate lithium powder that contains carbon simple substance and doping metals magnesium ion, wherein:

Contain polyvinyl alcohol 10g, magnesium nitrate 1g (about 0.004 mole) among the aqueous solution B of requirement 1kg;

According to step (1) as can be known 1kg mixture A contain 1.70 moles Quilonum Retard (Li ₂CO ₃Molecular weight 74), 3.48 moles of Ferrox (FeC ₂O ₄143) and 3.4 mole of phosphoric acid ammonium dihydrogen (NH molecular weight: ₄H ₂PO ₄Molecular weight: 115), so the ferrous phosphate doping lithium anode material that last synthetic contains carbon simple substance and doping metals magnesium ion can be used LiFeMg _0.0013PO ₄Expression;

(3) synthetic ferrous phosphate lithium powder is levigate, particle diameter is controlled between the 1-50um.

Embodiment three:

(1) at first phosphoric acid hydrogen two lithiums, Ferrox and three kinds of materials of primary ammonium phosphate in lithium ion: iron ion: the phosphate anion mol ratio is that 1: 1: 1 ratio uniform mixing obtains mixture A;

(2) getting 1kg mixture A puts into the aqueous solution B that 1kg contains sucrose and magnesium nitrate and evenly stirs, under nitrogen atmosphere, temperature rise rate heating with 5 ℃/min, insulation 6h continues heating when temperature reaches 90 ℃ of left and right sides, and constant temperature is 5 hours when temperature reaches 300 ℃, continued to be warming up to 700 ℃ of constant temperature then 5 hours, naturally cooling, the synthetic ferrous phosphate lithium powder that contains carbon simple substance and doping metals magnesium ion, wherein:

Contain sucrose 10g, magnesium nitrate 1g (about 0.004 mole) among the aqueous solution B of requirement 1kg;

According to step (1) as can be known 1kg mixture A contain 1.6 moles phosphoric acid hydrogen two lithium (Li ₂HPO ₄Molecular weight 110), 3.2 moles of Ferrox (FeC ₂O ₄143) and 3.2 mole of phosphoric acid ammonium dihydrogen (NH molecular weight: ₄H ₂PO ₄Molecular weight: 115), so the ferrous phosphate doping lithium anode material that last synthetic contains carbon simple substance and doping metals magnesium ion can be used LiFeMg _0.0011PO ₄Expression;

For the ease of calculating, when three kinds of materials of the lithium salts in the embodiment of the invention, molysite, primary ammonium phosphate mix all in lithium ion: iron ion: the phosphate anion mol ratio is that 1: 1: 1 ratio is carried out, thereby makes last synthetic ferrous phosphate lithium powder molecular formula LiFeMg _0.0013PO ₄In X, Y, Z value equate that but this can not be as the restriction to technical solution of the present invention.

Claims

1, a kind of synthetic method of lithium ferrous phosphate as anode material of lithium ion battery, its concrete synthetic method is as follows:

(1) get lithium salts, molysite, primary ammonium phosphate, in lithium ion: iron ion: the phosphate anion mol ratio is (0.8-1.2): (0.8-1.2): ratio uniform mixing (0.8-1.2), obtain mixture A, wherein:

Lithium salts is wherein a kind of of Quilonum Retard, lithium hydroxide, phosphoric acid hydrogen two lithiums, Lithium Sulphate, Lithium Acetate, lithium nitrate and lithium oxalate,

Molysite is ferrous acetate or Ferrox;

(2) above-mentioned a certain amount of mixture A is put into a certain amount of aqueous solution B that contains solubility salt and the organic class of solubility, after evenly stirring, put into High Temperature Furnaces Heating Apparatus, in non-air or non-oxidizing atmosphere, temperature rise rate heating with 1-30 ℃/min, the insulation 0-100h time when temperature rises to the 50-200 ℃ of left and right sides, the high more time of temperature is short more, carry out pyroprocessing according to existing heating means then, naturally cooling, the synthetic ferrous phosphate lithium powder that contains carbon simple substance (representing with C) and doped metal ion (representing with M) (is used Li _xFe _yM _zPO ₄Expression), the x in the formula, y, z value are decided according to respective substance addition content under the following conditions;

1. the mass ratio of aqueous solution B and mixture A is (0.1-10): 1;

2. comprise at least in the solubility salt among the aqueous solution B: a kind of in nitrate, acetate, vitriol and the hydrochloride of aluminium, titanium, magnesium, zirconium, vanadium, manganese, nickel, cobalt, niobium, rhodium, barium, chromium metallic element, its addition content must meet following condition: molar ratio≤0.3 of lithium ion in the metal ion in the solubility salt (M) and the lithium salts;

3. the organic class material of the solubility among the aqueous solution B comprises at least: sucrose, glucose and can be decomposed into a kind of in the soluble high-molecular compound with good electric conductivity carbon class material through pyrolysis, its addition content must meet following condition: carbon simple substance and Li in the final synthetics _xFe _yM _zPO ₄Quality ratio≤10;

(3) above synthetic ferrous phosphate lithium powder is levigate, particle diameter is controlled between the 1-50um.