CN104362319A

CN104362319A - Preparation method of porous tin-carbon composite negative material

Info

Publication number: CN104362319A
Application number: CN201410674911.2A
Authority: CN
Inventors: 杜陈强; 张新河; 唐致远; 李中延; 郑新宇; 丁玉茹; 汤春微
Original assignee: Mcnair Technology Co Ltd; Dongguan Mcnair New Power Co Ltd
Current assignee: Mcnair Technology Co Ltd; Dongguan Mcnair New Power Co Ltd
Priority date: 2014-11-21
Filing date: 2014-11-21
Publication date: 2015-02-18

Abstract

The invention belongs to the technical field of batteries, and particularly relates to a preparation method of a porous tin-carbon composite negative material, a composite material prepared through the method and a corresponding battery. The preparation method comprises the following steps of: firstly loading tin oxide, a carbon source and carbonate into a ball-milling tank according to the stoichiometric ratio, and carrying out ball-milling mixing to obtain a precursor; then placing the precursor into a flowing inert atmosphere, and calcining in a tube furnace; finally washing and drying an obtained calcined product to obtain the porous tin-carbon composite negative material. The porous tin-carbon composite negative material obtained through the method disclosed by the invention has the advantages of high capacity, excellent electrochemical property, low cost, simple production process and easiness for operation.

Description

A kind of preparation method of porous tin carbon composite

Technical field

The invention belongs to cell art, be specifically related to a kind of preparation method of porous tin carbon compound cathode materials and composite material obtained by this method thereof and corresponding battery thereof.

Background technology

Owing to having, operating voltage is high, energy density is large, fail safe is high for lithium ion battery, and self discharge is low, have extended cycle life and the advantage such as memory-less effect, is widely used in consumer and power type electronic product.But limited lithium resource reserves and high material cost thereof are its extensive use brings huge obstacle.The advanced battery system that development resource is enriched, with low cost and fail safe is high is the inevitable outlet solving Future New Energy Source development.Sodium element and lithium are in same main group, and chemical property is similar, and also relatively, and the aboundresources of sodium, refines cost also low than lithium to electrode potential.If substitute lithium with sodium, develop the sodium-ion battery of excellent working performance, it will have the competitive advantage larger than lithium ion battery.Anode material of lithium-ion battery conventional is at present hard carbon material, but its theoretical specific capacity is lower, cycle life is poor, is easy to the problems such as sodium dendrite precipitation occur, and the sodium electrode material seeking high power capacity and excellent cycling performance has become the study hotspot in current battery field.

In recent years, large quantifier elimination has turned to the Novel anode material system found and can substitute material with carbon element, and tin-based material becomes candidate material.Tin base cathode material, not only there is environmental friendliness, higher theoretical specific capacity (847mAh/g), several times and even the decades of times of hard carbon class negative material, and content comparatively abundant (in the earth's crust, abundance is 2.2ppm) in the earth's crust, be considered to the desirable negative material of high-energy-density sodium-ion battery.But the change in volume of tin base cathode material in embedding de-sodium process is very large, very easily causes electrode efflorescence, structural collapse, thus loses electro-chemical activity, causes it cannot directly be used as sodium-ion battery negative pole and use.For adapting to high-energy-density sodium-ion battery development need, anode material of lithium-ion battery of new generation must be developed.

Summary of the invention

In order to solve the problem, the object of the invention is to, provide a kind of low cost, technique simple, being applicable to the preparation method of the porous tin carbon composite of large-scale production;

Two of object of the present invention is the porous tin carbon composite providing described method obtained;

Three of object of the present invention is the negative pole providing described porous tin carbon composite obtained;

Four of object of the present invention is to provide the sodium-ion battery and lithium ion battery that comprise the negative pole that described porous tin carbon composite obtains.

The present invention is achieved through the following technical solutions:

A preparation method for porous tin carbon composite, is characterized in that, comprises following preparation process:

A. by tin oxide, carbon source and carbonate according to metering than loading ball grinder, with 200 ~ 400 revs/min of ball millings 0.5 ~ 12 hour, obtain mixing presoma;

B. presoma is placed in slumpability atmosphere in devices such as tube furnaces, is warming up to 500 ~ 1000 DEG C with 2 ~ 5 DEG C/min of heating rates, be incubated 1 ~ 6 hour, cool to room temperature with the furnace;

C. the calcined product washing obtained for several times, 50 ~ 100 DEG C of oven dry, obtains described porous tin carbon negative pole material.

Preferably, described carbonate is one or both compositions in sodium carbonate, lithium carbonate.

Preferably, described carbon source is one or more compositions in sucrose, glucose, acetylene black, conductive black, graphite.

Preferably, in described tin carbon composite, tin accounting example is 20 ~ 95%.

Preferably, by the washing of centrifugal or filter type for several times, solvent for use is one or more in water, ethanol, methyl alcohol to described calcined product.

A kind of battery cathode, comprises the porous tin carbon composite that described preparation method obtains.

A kind of sodium-ion battery, contains described high power capacity porous tin Carbon anode.

A kind of lithium ion battery, contains described high power capacity porous tin Carbon anode.

The present invention utilizes simple ball milling-calcining-oven dry preparation porous tinbase composite negative pole material, on the one hand, because the present invention adopts tin oxide, the wherein redox reaction of carbon and tin oxide, therefore the material mixing obtained as raw material relative to pure phase simple substance evenly, not easily have impurity to occur, and the material that finally can synthesize is the coated tin composite material of carbon of porous.On the other hand, the carbon source of employing is sucrose, glucose, acetylene black, conductive black, graphite, and these raw material are widely distributed at occurring in nature, cheap, environmental protection; Adopt several kinds of carbon source (sucrose, glucose, acetylene black, conductive black, graphite) to carry out reduction-oxidation tin simultaneously, the tin carbon composite of in-stiu coating can be obtained.Especially introduce carbonate (sodium carbonate, lithium carbonate), utilize it in presoma high-temperature reaction process, decompose carbon dioxide and wash removing catabolite oxide with water, making final tin carbon composite reach the structure of porous.Especially it can be used as the negative material of sodium-ion battery, because it has loose structure, make its change in volume in embedding de-sodium process little, electrode efflorescence can not be caused, structural collapse, thus lose electro-chemical activity.Can directly be used as sodium-ion battery negative pole to use, adapt to high-energy-density sodium-ion battery development need.Certainly, also can use as the negative pole of lithium ion battery.

Accompanying drawing explanation

Fig. 1 is porous tin carbon composite charge-discharge property figure of the present invention.

concrete execution mode

Below in conjunction with embodiment, the present invention is described in further detail, understands the present invention to help those skilled in the art.

Embodiment 1

The preparation method of porous tin carbon composite, comprises following preparation process:

A. tin oxide, sucrose and sodium carbonate are loaded ball grinder according to amount of substance=1:1:1, with 300 revs/min of ball millings 4 hours, obtain mixing presoma;

B. presoma is placed in flowing nitrogen atmosphere in devices such as tube furnaces, is warming up to 600 DEG C with 3 DEG C/min of heating rates, be incubated 6 hours, cool to room temperature with the furnace;

C. the calcined product deionized water obtained washes rear centrifugation, and washing for several times, 80 DEG C of oven dry, obtains porous tin carbon composite.

Embodiment 2

A. tin oxide, glucose and lithium carbonate are loaded ball grinder according to amount of substance=0.6:1.2:1.2, with 400 revs/min of ball millings 1 hour, obtain mixing presoma;

B. presoma is placed in flowing nitrogen atmosphere in devices such as tube furnaces, is warming up to 500 DEG C with 5 DEG C/min of heating rates, be incubated 1 hour, cool to room temperature with the furnace;

C. the calcined product deionized water obtained washes rear centrifugation, and washing for several times, 50 DEG C of oven dry, obtains porous tin carbon composite.

Embodiment 3

A. tin oxide, graphite and sodium carbonate are loaded ball grinder according to amount of substance=2.8:0.1:0.1, with 200 revs/min of ball millings 12 hours, obtain mixing presoma;

B. presoma is placed in flowing nitrogen atmosphere in devices such as tube furnaces, is warming up to 1000 DEG C with 2 DEG C/min of heating rates, be incubated 3 hours, cool to room temperature with the furnace;

C. the calcined product deionized water obtained washes rear centrifugation, and washing for several times, 100 DEG C of oven dry, obtains porous tin carbon composite.

Embodiment 4

A. tin oxide, glucose, acetylene black, sodium carbonate and lithium carbonate are loaded ball grinder according to amount of substance=1.5:0.5:0.25:0.5:0.25, with 250 revs/min of ball millings 18 hours, obtain mixing presoma;

B. presoma is placed in flowing nitrogen atmosphere in devices such as tube furnaces, is warming up to 800 DEG C with 3 DEG C/min of heating rates, be incubated 4 hours, cool to room temperature with the furnace;

C. the calcined product deionized water obtained washes rear centrifugation, and washing for several times, 700 DEG C of oven dry, obtains porous tin carbon composite.

Embodiment 5

A. tin oxide, sucrose, glucose, conductive black, graphite and sodium carbonate are loaded ball grinder according to amount of substance=2:1:0.1:0.1:0.1:0.1:0.6, with 350 revs/min of ball millings 5 hours, obtain mixing presoma;

B. presoma is placed in flowing nitrogen atmosphere in devices such as tube furnaces, is warming up to 800 DEG C with 4 DEG C/min of heating rates, be incubated 4 hours, cool to room temperature with the furnace;

C. the calcined product deionized water obtained washes rear centrifugation, and washing for several times, 60 DEG C of oven dry, obtains porous tin carbon composite.

Above-described embodiment, just preferred embodiment of the present invention, not exhaustive; Not be used for limiting the scope of the present invention, therefore all equivalences done with the feature described in the claims in the present invention and principle change or modify, and all should be included within the claims in the present invention scope.

Claims

1. a preparation method for porous tin carbon composite, is characterized in that, comprises following preparation process:

B. presoma is placed in slumpability atmosphere in tube furnace, is warming up to 500 ~ 1000 DEG C with 2 ~ 5 DEG C/min of heating rates, be incubated after 1 ~ 6 hour, cool to room temperature with the furnace;

C. the calcined product obtained in B is washed, 50 ~ 100 DEG C of oven dry, obtain described porous tin carbon composite.

2. the preparation method of porous tin carbon composite as claimed in claim 1, it is characterized in that, described carbonate is one or both compositions in sodium carbonate, lithium carbonate.

3. the preparation method of porous tin carbon composite as claimed in claim 1, it is characterized in that, described carbon source is one or more compositions in sucrose, glucose, acetylene black, conductive black, graphite.

4. the preparation method of porous tin carbon composite as claimed in claim 1, it is characterized in that, in described tin carbon composite, the weight ratio of tin is 20 ~ 95%.

5. the preparation method of porous tin carbon composite as claimed in claim 1, is characterized in that, described calcined product by centrifugal or filter type washing for several times.

6. the preparation method of porous tin carbon composite as claimed in claim 5, is characterized in that, cleaning solvent used is one or more in water, ethanol, methyl alcohol.

7. a battery cathode, is characterized in that, comprises the porous tin carbon composite that preparation method described in any one in claim 1-6 obtains.

8. a sodium-ion battery, is characterized in that, contains the porous of high power capacity described in claim 7 tin Carbon anode.

9. a lithium ion battery, is characterized in that, contains the porous of high power capacity described in claim 7 tin Carbon anode.