CN109786660A

CN109786660A - Sodium ion battery electrode capable of carrying out positive electrode pre-sodium treatment

Info

Publication number: CN109786660A
Application number: CN201811543551.7A
Authority: CN
Inventors: 许寒; 刘兴江; 丁飞; 宗军; 倪旺; 宁凡雨; 刘逸骏; 刘胜男
Original assignee: CETC 18 Research Institute
Current assignee: CETC 18 Research Institute
Priority date: 2018-12-17
Filing date: 2018-12-17
Publication date: 2019-05-21

Abstract

The invention discloses a sodium ion battery electrode capable of carrying out positive electrode pre-sodium modification, which consists of solid powder consisting of sodium-rich donors, positive electrode active substances, conductive agents and binders. The invention improves the cycle performance of the sodium-ion battery and reduces the loss of sodium ions in the cycle process, thereby further embodying the use advantage of the sodium-ion battery as a low-cost battery.

Description

A kind of sodium-ion battery electrode carrying out the pre- sodium of anode

Technical field

The invention belongs to sodium-ion battery technical field, more particularly to it is a kind of can pre- sodium sodium-ion battery.

Background technique

With constantly advancing for new energy resource power battery, new battery system is continued to bring out, traditional lithium-ion electric A series of problems, such as pond is higher presently, there are cost of material.In general, the approach for reducing cost has: reducing battery material Cost, the service life for extending battery etc..

Sodium-ion battery is the electrochmical power source system that fast development is got up in recent years, since sodium-ion battery positive material is closed It is usually lower-cost sodium salt, this point carbon used compared to anode material for lithium-ion batteries synthesis at used raw material Cost reduces 80% or more for sour lithium or lithium hydroxide, in addition sodium-ion battery presently, there are main problem be: First is that energy density it is slightly lower, second is that cycle life compared to still having a certain distance for lithium ion battery.

Improving sodium-ion battery cycle life, relatively effective means are using the method for pre- sodium processing, pre- sodium processing at present Pre- sodium technology can broadly be divided into the pre- sodium of anode and the pre- sodium of cathode, the pre- sodium of cathode are exactly to take certain hand Section supplements a certain amount of Na in negative electrode material in advance⁺To compensate the irreversible capacity damage during negative electrode material first charge-discharge It loses, the pre- sodium of anode is mainly the compound that rich sodium is added during electrode fabrication, so that sodium ion is excessive from positive electrode Na can be effectively provided after abjection⁺Ion, maintains the stabilization of structure, to extend the cycle performance of battery.

Summary of the invention

The present invention is to solve the problems, such as that sodium-ion battery cycle life present in well-known technique is short, and providing one kind can be with The sodium-ion battery electrode for carrying out the pre- sodium of anode, effectively improves the cycle life of sodium-ion battery, also reduces sodium ion The use cost of battery, to help to push being widely applied and applying for sodium-ion battery.

In order to solve the above-mentioned technical problem, the technical solution adopted by the present invention is that: one kind can carry out the sodium of the pre- sodium of anode Ion battery electrode, the solid powder including rich sodium donor, positive active material, conductive agent and binder composition；

The richness sodium donor is Na₃PO₄、Na₂O₂、Na₂SO₄、Na₂One or more of S combination, molar ratio are Na₃PO₄: Na₂O₂: Na₂SO₄: Na₂S=0~3:0~1.5:0~2.5:0~2, the gross mass percentage of rich sodium donor are solid-state The 2% of powder gross mass；

The positive active material is Na₄Co₃(PO₄)₂P₂O₇、Na₄Fe₃(PO₄)₂P₂O₇、Na₄Co_2.4Mn_0.3Ni_0.3(PO₄)₂P₂O₇、Na₃(VO_0.8)₂(PO₄)₂F_1.4One or more of, molar ratio Na₄Co₃(PO₄)₂P₂O₇: Na₄Fe₃(PO₄)₂P₂O₇: Na₄Co_2.4Mn_0.3Ni_0.3(PO₄)₂P₂O₇: Na₃(VO_0.8)₂(PO₄)₂F_1.4=0~3:0~1.5:0~2.5:0~2, anode The gross mass percentage of active material is the 90% of solid powder gross mass；

The conductive agent is one or more of graphene quantum dot, fullerene, graphite alkene combination or more, mass ratio For graphene quantum dot: fullerene: graphite alkene=0~3:0~1.5:0~2.5, the gross mass percentage of conductive agent are solid-state powder The 5% of body gross mass；

The binder be one of polyacrylic acid pentabromo- benzyl ester, polymethyl methacrylate, polyethyl acrylate or Several combinations, mass ratio are polyacrylic acid pentabromo- benzyl ester: polymethyl methacrylate: polyethyl acrylate=0~3:0~ 1.5:0~2.5, the gross mass percentage of binder are the 3% of solid powder gross mass.

The beneficial effects of the present invention are: improving the cycle performance of sodium-ion battery, reduce in cyclic process, sodium ion Loss, to further embody a kind of use advantage of the sodium-ion battery as inexpensive battery.

Specific embodiment

The of the invention sodium-ion battery electrode for carrying out the pre- sodium of anode, including rich sodium donor, positive active material, lead The solid powder of electric agent and binder composition；

After solid mixture is dissolved and stirred evenly as solvent using NMP, it is coated on 20 microns of thick aluminium It on foil, dries, is dried in vacuo 24 hours at 120 DEG C by continuing after rolling, hard carbon is adopted as negative electrode material in 150 DEG C 2.8V is charged under the current density of 50mA/g later at soft-package battery with by electrode assembling, then constant-voltage charge 30 minutes, Continue to charge to 3.9V constant-voltage charge 30 minutes, continues to be discharged to 2.0V with the current density of 50mA/g, it then will be in battery Gas is released, and continues to encapsulate, and is then recycled between 2.0-3.9V with the current density of 100mA/g.Test result table It is bright, it carries out the battery of pre- sodium processing and is significantly improved compared to not carrying out the battery of pre- sodium processing its cycle performance.

In order to further understand the content, features and effects of the present invention, the following examples are hereby given, and it is described in detail It is as follows:

Embodiment 1

By Na₃PO₄、Na₄Co₃(PO₄)₂P₂O₇, graphite alkene, polyacrylic acid pentabromo- benzyl ester it is mixed according to mass ratio 2:90:5:3 It closes, NMP is added as solvent, solid content disperses 8 hours in refiner between 45-60%, is coated on 20 microns of thick aluminium It on foil, dries, is dried in vacuo 24 hours at 120 DEG C by continuing after rolling, hard carbon is adopted as negative electrode material in 150 DEG C 2.8V is charged under the current density of 50mA/g later at soft-package battery with by electrode assembling, then constant-voltage charge 30 minutes, Continue to charge to 3.9V constant-voltage charge 30 minutes, continues to be discharged to 2.0V with the current density of 50mA/g, it then will be in battery Gas is released, and continues to encapsulate, and is then recycled between 2.0-3.9V with the current density of 100mA/g.

Embodiment 2

By Na₂O₂、Na₄Fe₃(PO₄)₂P₂O₇, fullerene, polymethyl methacrylate it is mixed according to mass ratio 2:90:5:3 It closes, NMP is added as solvent, solid content disperses 8 hours in refiner between 45-60%, is coated on 20 microns of thick aluminium It on foil, dries, is dried in vacuo 24 hours at 120 DEG C by continuing after rolling, hard carbon is adopted as negative electrode material in 150 DEG C 2.8V is charged under the current density of 50mA/g later at soft-package battery with by electrode assembling, then constant-voltage charge 30 minutes, Continue to charge to 3.9V constant-voltage charge 30 minutes, continues to be discharged to 2.0V with the current density of 50mA/g, it then will be in battery Gas is released, and continues to encapsulate, and is then recycled between 2.0-3.9V with the current density of 100mA/g.

Embodiment 3

By Na₂S、Na₄Co_2.4Mn_0.3Ni_0.3(PO₄)₂P₂O₇, graphene quantum dot, polyethyl acrylate is according to mass ratio NMP is added as solvent in 2:90:5:3 mixing, and solid content disperses 8 hours in refiner between 45-60%, is coated on 20 It on the thick aluminium foil of micron, dries, is dried in vacuo 24 hours at 120 DEG C by continuing after rolling, hard carbon is as negative in 150 DEG C Pole material charges to 2.8V under the current density of 50mA/g at after soft-package battery using by electrode assembling, and then constant pressure is filled Electricity 30 minutes, continues to charge to 3.9V constant-voltage charge 30 minutes, continues to be discharged to 2.0V with the current density of 50mA/g, then will Gas in battery is released, and continues to encapsulate, and is then recycled between 2.0-3.9V with the current density of 100mA/g.

Embodiment 4

By Na₄Co₃(PO₄)₂P₂O₇, Na₄Fe₃(PO₄)₂P₂O₇, Na₄Co_2.4Mn_0.3Ni_0.3(PO₄)₂P₂O₇And Na₃(VO_0.8)₂ (PO₄)₂F_1.4Mixed cathode active material is formed according to molar ratio=2:1:1:1.5, and by blended anode and conductive agent (graphite Alkene quantum dot: fullerene: graphite alkene=1:1:2 mass ratio), binder (polyacrylic acid pentabromo- benzyl ester: poly-methyl methacrylate Ester: polyethyl acrylate=2:1:2 mass ratio), rich sodium donor (Na₃PO₄: Na₂O₂: Na₂SO₄: Na₂S=1:1:2:1 molar ratio) It is mixed according to 90:5:3:2 (mass ratio).NMP is added as solvent, solid content disperses 8 between 45-60% in refiner Hour, it is coated on 20 microns of thick aluminium foils, is dried in 150 DEG C, it is small by continuing the vacuum drying 24 at 120 DEG C after rolling When, hard carbon charges under the current density of 50mA/g using by electrode assembling at after soft-package battery as negative electrode material 2.8V, then constant-voltage charge 30 minutes, continue to charge to 3.9V constant-voltage charge 30 minutes, and continuation is put with the current density of 50mA/g Gas in battery is then released to 2.0V, continues to encapsulate, then with the electric current of 100mA/g between 2.0-3.9V by electricity Density is recycled.

Comparative example 1

By Na₂CoO₂, SP, PVDF according to mass ratio 2:93:5 mix, be added NMP as solvent, solid content is in 45- Between 60%, disperse 8 hours in refiner, be coated on 20 microns of thick aluminium foils, is dried in 150 DEG C, after rolling Continuation be dried in vacuo 24 hours at 120 DEG C, hard carbon as negative electrode material, using by electrode assembling at soft-package battery later in 2.8V is charged under the current density of 50mA/g, then constant-voltage charge 30 minutes, continue to charge to 3.9V constant-voltage charge 30 minutes, Continue to be discharged to 2.0V with the current density of 50mA/g, then the gas in battery is released, continues to encapsulate, then in 2.0- It is recycled between 3.9V with the current density of 100mA/g.

1 embodiment of table and comparative example Contrast on effect

	300 weeks circulation volume conservation rate %
		Embodiment 1	88.2
Embodiment 2	89.3
		Embodiment 3	83.5
Embodiment 4	92.1
		Comparative example 1	62.1

Embodiment described above is merely to illustrate technical idea and feature of the invention, in the art its object is to make Technical staff it will be appreciated that the contents of the present invention and implement accordingly, patent model of the invention only cannot be limited with the present embodiment It encloses, i.e., same changes or modifications made by all disclosed spirit are still fallen in the scope of the patents of the invention.

Claims

1. the sodium-ion battery electrode that one kind can carry out the pre- sodium of anode, which is characterized in that including rich sodium donor, positive electrode active material The solid powder of matter, conductive agent and binder composition；

The richness sodium donor is Na₃PO₄、Na₂O₂、Na₂SO₄、Na₂One or more of S combination, molar ratio Na₃PO₄: Na₂O₂: Na₂SO₄: Na₂S=0~3:0~1.5:0~2.5:0~2, the gross mass percentage of rich sodium donor are the total matter of solid powder The 2% of amount；

The positive active material is Na₄Co₃(PO₄)₂P₂O₇、Na₄Fe₃(PO₄)₂P₂O₇、Na₄Co_2.4Mn_0.3Ni_0.3(PO₄)₂P₂O₇、 Na₃(VO_0.8)₂(PO₄)₂F_1.4One or more of, molar ratio Na₄Co₃(PO₄)₂P₂O₇: Na₄Fe₃(PO₄)₂P₂O₇: Na₄Co_2.4Mn_0.3Ni_0.3(PO₄)₂P₂O₇: Na₃(VO_0.8)₂(PO₄)₂F_1.4=0~3:0~1.5:0~2.5:0~2, positive-active The gross mass percentage of substance is the 90% of solid powder gross mass；

The conductive agent is one or more of graphene quantum dot, fullerene, graphite alkene combination or more, and mass ratio is stone Black alkene quantum dot: fullerene: graphite alkene=0~3:0~1.5:0~2.5, the gross mass percentage of conductive agent are that solid powder is total The 5% of quality；

The binder is one or more of polyacrylic acid pentabromo- benzyl ester, polymethyl methacrylate, polyethyl acrylate Combination, mass ratio are polyacrylic acid pentabromo- benzyl ester: polymethyl methacrylate: polyethyl acrylate=0~3:0~1.5:0 ~2.5, the gross mass percentage of binder is the 3% of solid powder gross mass.