CN109065854A - A kind of preparation method of nano-carbon coated zinc oxide composite and the preparation method of electrode - Google Patents

Abstract

The present invention provides a kind of preparation method of nano-carbon coated zinc oxide composite and the preparation methods of electrode, wherein, it include: a kind of preparation method of nano-carbon coated zinc oxide composite, include the following steps: the preparation of step 1) presoma nano metal organic frame bio-MOF100: the preparation of step 2 nano-carbon coated zinc oxide: the present invention also provides a kind of preparation methods of electrode, are prepared based on nano-carbon coated zinc oxide composite described above.The present invention prepares nano-carbon coated zinc oxide composites by template of nano metal organic frame, and the effective volume expansion and reunion alleviated in zinc oxide charge and discharge process improves the cyclical stability of electrode.

Description

A kind of preparation method of nano-carbon coated zinc oxide composite and the preparation of electrode Method

Technical field

The invention belongs to nano-carbon coated zinc oxide composite preparation technical fields, and in particular to a kind of nano-carbon coated The preparation method of zinc oxide composite and the preparation method of electrode.

Background technique

Global environmental pollution and energy crisis are on the rise, thus the huge environmental pollution of bring and greenhouse effects problem Become increasingly conspicuous, mankind's energy supply system that there is an urgent need to develop new green regenerative energy sources to replace current.Wherein wrap More environmentally-friendly electric car and hybrid vehicle are included: being developed and design, realizes the zero-emission or small discharge of CO2；It opens energetically The renewable energy for sending out new, such as wind energy, solar energy and tide energy energy source use form.The development in these fields, requires height The energy storage system of effect, compared to the secondary cells such as traditional lead-acid battery, nickel-cadmium cell and nickel-metal hydride battery, lithium ion battery tool Have the advantages that open-circuit voltage height, energy density height, long service life, security performance is superior, environmental-friendly, self discharge is small, and by It is considered the classical energy of modern material and new energy science.Using battery and supercapacitor as the electrochemical energy storage body of representative System, in terms of electricity generation system and supply network, effectively can not only store and transmit the energy, and can play effective use Electric energy makes up the effect of supply and demand difference.But it is swift and violent with mixed electrical automobile, electric car and other large-scale electric equipments Development, lithium ion battery are also faced with more challenges, improve capacity, realize fast charging and discharging, reduce cost and enhancing peace Full property etc. becomes the Main way that scientific research personnel probes into recent years.That there are energy densities is inclined for existing commercialized lithium ion battery It is low, the problems such as high expensive, far from meeting the needs of people.Electrode material (especially cathode) is that limiting lithium ion cell holds One of key factor of amount, so, research and development novel anode material tool has very great significance.

Zinc oxide has special physical and chemical performance, as chemical stability is high, electrochemical couple coefficient is big, radiation absorption Range is wide and light resistance is strong etc., is good multifunctional material, can operate with multiple fields.Compared with other materials, oxidation Zinc has many advantages, such as that theoretical specific capacity is high, at low cost, preparation is easy and chemical stability is high, and right and wrong are often with there is application prospect One of negative electrode material.However due to zinc oxide in charge and discharge process caused by volume expansion make it as lithium ion battery The specific capacity of negative electrode material prepares composite material with rapid decay, by design, selects suitable material and oxo transition metal Compound progress is compound, can buffer the volume expansion during its lithiumation, be a kind of structural stability for effectively improving electrode material And electric conductivity, thus the method for improving material circulation stability.

Metal organic framework compound (MOFs) has higher specific surface area and can as a kind of novel porous material The pore structure of tune, hole environment so that MOFs all have in fields such as fluorescence, sensing, gas absorption separation, catalysis it is extensive potential Using.In recent years, based on MOFs be carrier, template or predecessor preparation composite material lithium ion battery, lithium-sulfur cell, The electrochemical energy storages such as supercapacitor field all shows the performance more excellent than conventional method.Have due to MOFs itself The features such as porosity, adjustable structure, has shown excellent using MOFs as the carbon-clad metal oxide of template or precursor preparation In the various features of traditional preparation methods.On the one hand rich and varied etc. with biggish specific surface area, organic ligand due to MOFs Feature can release a large amount of gaseous state small molecule during calcination, therefore finally obtained sample has biggish specific surface Product, or even elastic construction particle can be obtained.On the other hand, being uniformly distributed for metallic element allows oxide uniform in MOFs Be covered by porous carbon.

Common zinc oxide is semiconductor material, at normal temperature 3.37 e V of forbidden bandwidth with higher.Its electronic conductance Rate is low, and charge transfer resistance and Ohmic resistance are larger, causes the kinetic activity of material poor, and high rate charge-discharge performance is paid no attention to Think.Meanwhile in charge and discharge process, the alloying reaction of the conversion reaction of zinc oxide and zinc and metallic zinc and lithium will cause material Expect biggish bulk effect (163%) and the variation of extreme pattern, so that zinc oxide occurs dusting, falls off, loses and collector Between connection, and can also constantly form new surface, persistently consume lithium ion, cause capacity rapid decay.During lithiumation The Li2O invertibity of generation is poor, consumes a large amount of lithium sources, cause for the first time irreversible capacity loss it is serious；And zinc oxide is gone back The zinc cluster obtained after original is also easy to produce reunion, seriously affects subsequent alloying process.These disadvantages are difficult to zinc oxide material The electrode material promoted as industrialized production and commercialization.

Summary of the invention

In view of this, there is provided a kind of preparation sides of nano-carbon coated zinc oxide composite for the main object of the present invention The preparation method of method and electrode.

The technical solution adopted by the present invention are as follows:

A kind of preparation method of nano-carbon coated zinc oxide composite, includes the following steps:

The preparation of step 1) presoma nano metal organic frame bio-MOF100:

A: weighing molar ratio is 0.5~1.5:0.8~1.2:0.6~1.8 zinc nitrate, adenine and 4,4 '-biphenyl dicarboxyls Acid, is added the mixed solvent of organic solvent n,N-Dimethylformamide and water, and the two ratio is 2~5:1~2；

B: by mixed solution at stirring at room temperature 18~36 hours of 20~35 DEG C, white powder is obtained；

C: white powder is washed with n,N-Dimethylformamide and anhydrous methanol respectively, and obtaining nano metal after dry has Machine frame bio-MOF100；

The preparation of step 2 nano-carbon coated zinc oxide:

The nano metal organic frame bio-MOF100 powder that step 1) obtains is calcined under an inert atmosphere, calcination temperature range After reaching target temperature with the heating rate of 5 DEG C/min, to stop 4h under target temperature between 600~800 DEG C, after allow it Natural cooling obtains nano-carbon coated zinc oxide composites ZnO/C.

In step, weighing molar ratio is 1~1.5:0.8~1:1~1.8 zinc nitrate, adenine and 4,4 '-connection Benzene dicarboxylic acid, is added the mixed solvent of organic solvent n,N-Dimethylformamide and water, and the two ratio is 3:2.

In step 2, inert atmosphere is nitrogen.

The present invention also provides a kind of preparation methods of electrode, based on nano-carbon coated zinc oxide composite wood described above Material, includes the following steps:

The nano-carbon coated zinc oxide composites ZnO/C of synthesis is taken, using Kynoar as binder, acetylene black is conductive agent, Mixed with 6~9:0.5 of mass ratio~2:1~2, N-Methyl pyrrolidone be solvent grind it is even, then use 300mm Scraper by its uniform blade coating on copper foil, after be dried overnight in 80 DEG C of vacuum oven；

Copper foil material is subjected to dicing, is to electrode with lithium piece, polyethylene is diaphragm material, with the hexafluorophosphoric acid of 1mol/L Lithium is electrolyte, mixed solvent volume ratio ethylene carbonate: methyl ethyl carbonate: diethyl carbonate=0.5~1.5:0.6~1.2: 0.8~1.2 can prepare for the electrolyte of solvent based on nano-carbon coated zinc oxide composite electrode.

The present invention has the advantage that the present invention prepares nano-carbon coated zinc oxide by template of nano metal organic frame Compound, the effective volume expansion and reunion alleviated in zinc oxide charge and discharge process, improves the cyclical stability of electrode.In electricity Current density is still to be maintained at 650 mAh/g after 100 circle of circulation under 100mA/g, even if 100 circle of circulation at 200~300mA/g It is still maintained at 450 mAh/g afterwards.

Detailed description of the invention

Present invention will be further explained below with reference to the attached drawings and examples.

Fig. 1 a and Fig. 1 b are the X-ray powder diffraction figure of bio-MOF100 and zinc oxide；

Fig. 2 a and Fig. 2 b are the SEM figure of bio-MOF100 presoma and prepared nano-carbon coated zinc oxide；

The electrochemistry that Fig. 3 is ZnO/C under current density is 100 mA/g and 500 mA/g recycles schematic diagram.

Specific embodiment

Below in conjunction with attached drawing and specific embodiment, the present invention will be described in detail, herein illustrative examples of the invention And explanation is used to explain the present invention, but not as a limitation of the invention.

Embodiment 1

The present invention provides a kind of preparation methods of nano-carbon coated zinc oxide composite, include the following steps:

The preparation of step 1) presoma nano metal organic frame bio-MOF100:

A: weighing the zinc nitrate that molar ratio is 0.5:0.8:0.6, adenine and 4, and organic solvent is added in 4 '-diphenyl dicarboxylic acids The mixed solvent of n,N-Dimethylformamide and water, the two ratio are 2:1；

B: by mixed solution at stirring at room temperature 18 hours of 20 DEG C, white powder is obtained；

C: white powder is washed with n,N-Dimethylformamide and anhydrous methanol respectively, and obtaining nano metal after dry has Machine frame bio-MOF100；

The preparation of step 2 nano-carbon coated zinc oxide:

The nano metal organic frame bio-MOF100 powder that step 1) obtains is calcined under an inert atmosphere, calcination temperature range After reaching target temperature with the heating rate of 5 DEG C/min, to stop 4h under target temperature between 600 DEG C, after make it naturally cold But, nano-carbon coated zinc oxide composites ZnO/C is obtained.

The present invention also provides a kind of preparation methods of electrode, based on nano-carbon coated zinc oxide composite wood described above Material, includes the following steps:

The nano-carbon coated zinc oxide composites ZnO/C of synthesis is taken, using Kynoar as binder, acetylene black is conductive agent, Mixed with mass ratio 6:0.5:1, N-Methyl pyrrolidone be solvent grind it is even, then using 300mm scraper by its Uniform blade coating on copper foil, after be dried overnight in 80 DEG C of vacuum oven；

Copper foil material is subjected to dicing, is to electrode with lithium piece, polyethylene is diaphragm material, with the hexafluorophosphoric acid of 1mol/L Lithium is electrolyte, mixed solvent volume ratio ethylene carbonate: methyl ethyl carbonate: diethyl carbonate=0.5:0.6:0.8 is solvent Electrolyte can prepare based on nano-carbon coated zinc oxide composite electrode.

Embodiment 2

A kind of preparation method of nano-carbon coated zinc oxide composite, includes the following steps:

The preparation of step 1) presoma nano metal organic frame bio-MOF100:

A: weighing the zinc nitrate that molar ratio is 1:1:1, adenine and 4, and organic solvent N, N- bis- is added in 4 '-diphenyl dicarboxylic acids The mixed solvent of methylformamide and water, the two ratio are 3:2；

B: by mixed solution at stirring at room temperature 25 hours of 25 DEG C, white powder is obtained；

C: white powder is washed with n,N-Dimethylformamide and anhydrous methanol respectively, and obtaining nano metal after dry has Machine frame bio-MOF100；

The preparation of step 2 nano-carbon coated zinc oxide:

The nano metal organic frame bio-MOF100 powder that step 1) obtains is calcined under an inert atmosphere, calcination temperature range After reaching target temperature with the heating rate of 5 DEG C/min, to stop 4h under target temperature between 700 DEG C, after make it naturally cold But, nano-carbon coated zinc oxide composites ZnO/C is obtained.

The present invention also provides a kind of preparation methods of electrode, based on nano-carbon coated zinc oxide composite wood described above Material, includes the following steps:

The nano-carbon coated zinc oxide composites ZnO/C of synthesis is taken, using Kynoar as binder, acetylene black is conductive agent, Mixed with mass ratio 8:1:1, N-Methyl pyrrolidone be solvent grind it is even, then using 300mm scraper by its Even blade coating on copper foil, after be dried overnight in 80 DEG C of vacuum oven；

Copper foil material is subjected to dicing, is to electrode with lithium piece, polyethylene is diaphragm material, with the hexafluorophosphoric acid of 1mol/L Lithium is electrolyte, mixed solvent volume ratio ethylene carbonate: methyl ethyl carbonate: diethyl carbonate=1:1:1 is the electrolysis of solvent Liquid can be prepared based on nano-carbon coated zinc oxide composite electrode.

Embodiment 3

A kind of preparation method of nano-carbon coated zinc oxide composite, includes the following steps:

The preparation of step 1) presoma nano metal organic frame bio-MOF100:

A: weighing the zinc nitrate that molar ratio is 1.5:1.2:1.8, adenine and 4, and organic solvent is added in 4 '-diphenyl dicarboxylic acids The mixed solvent of n,N-Dimethylformamide and water, the two ratio are 5:1；

B: by mixed solution at stirring at room temperature 36 hours of 35 DEG C, white powder is obtained；

C: white powder is washed with n,N-Dimethylformamide and anhydrous methanol respectively, and obtaining nano metal after dry has Machine frame bio-MOF100；

The preparation of step 2 nano-carbon coated zinc oxide:

The nano metal organic frame bio-MOF100 powder that step 1) obtains is calcined under an inert atmosphere, calcination temperature range After reaching target temperature with the heating rate of 5 DEG C/min, to stop 4h under target temperature between 800 DEG C, after make it naturally cold But, nano-carbon coated zinc oxide composites ZnO/C is obtained.

The present invention also provides a kind of preparation methods of electrode, based on nano-carbon coated zinc oxide composite wood described above Material, includes the following steps:

The nano-carbon coated zinc oxide composites ZnO/C of synthesis is taken, using Kynoar as binder, acetylene black is conductive agent, Mixed with mass ratio 9:2:2, N-Methyl pyrrolidone be solvent grind it is even, then using 300mm scraper by its Uniform blade coating on copper foil, after be dried overnight in 80 DEG C of vacuum oven；

Copper foil material is subjected to dicing, is to electrode with lithium piece, polyethylene is diaphragm material, with the hexafluorophosphoric acid of 1mol/L Lithium is electrolyte, mixed solvent volume ratio ethylene carbonate: methyl ethyl carbonate: diethyl carbonate=1.5:1.2:1.2 is solvent Electrolyte can prepare based on nano-carbon coated zinc oxide composite electrode.

Test example: the electrochemical property test of electrode.

By the electrode of above-mentioned preparation, button cell model is used to be assembled into button cell in glove box for 2032.? Electro-chemical test, electro-chemical test major parameter setting: voltage model when cycle performance is tested are carried out in the room that temperature is 20 DEG C 0.01V-3V is enclosed, current density is 100 mA/g, 500 mA/g.

Technical solution disclosed in the embodiment of the present invention is described in detail above, specific implementation used herein Example is expounded the principle and embodiment of the embodiment of the present invention, and the explanation of above embodiments is only applicable to help to understand The principle of the embodiment of the present invention；At the same time, for those skilled in the art is being embodied according to an embodiment of the present invention There will be changes in mode and application range, in conclusion the content of the present specification should not be construed as to limit of the invention System.

Claims (4)

1. a kind of preparation method of nano-carbon coated zinc oxide composite, which comprises the steps of:

The preparation of step 1) presoma nano metal organic frame bio-MOF100:

A: weighing molar ratio is 0.5~1.5:0.8~1.2:0.6~1.8 zinc nitrate, adenine and 4,4 '-biphenyl dicarboxyls Acid, is added the mixed solvent of organic solvent n,N-Dimethylformamide and water, and the two ratio is 2~5:1~2；

B: by mixed solution at stirring at room temperature 18~36 hours of 20~35 DEG C, white powder is obtained；

C: white powder is washed with n,N-Dimethylformamide and anhydrous methanol respectively, and obtaining nano metal after dry has Machine frame bio-MOF100；

The preparation of step 2 nano-carbon coated zinc oxide:

The nano metal organic frame bio-MOF100 powder that step 1) obtains is calcined under an inert atmosphere, calcination temperature range After reaching target temperature with the heating rate of 5 DEG C/min, to stop 4h under target temperature between 600~800 DEG C, after allow it Natural cooling obtains nano-carbon coated zinc oxide composites ZnO/C.

2. the preparation method of nano-carbon coated zinc oxide composite according to claim 1, it is characterised in that: in step In A, weighing molar ratio is 1~1.5:0.8~1:1~1.8 zinc nitrate, and adenine and 4,4 '-diphenyl dicarboxylic acids, addition has The mixed solvent of solvent n,N-Dimethylformamide and water, the two ratio are 3:2.

3. the preparation method of nano-carbon coated zinc oxide composite according to claim 1, it is characterised in that: in step 2) in, inert atmosphere is nitrogen.

4. a kind of preparation method of electrode, based on nano-carbon coated zinc oxide composite described in claims 1 or 2 or 3, It is characterized in that: including the following steps:

The nano-carbon coated zinc oxide composites ZnO/C of synthesis is taken, using Kynoar as binder, acetylene black is conductive agent, Mixed with 6~9:0.5 of mass ratio~2:1~2, N-Methyl pyrrolidone be solvent grind it is even, then use 300mm Scraper by its uniform blade coating on copper foil, after be dried overnight in 80 DEG C of vacuum oven；

Copper foil material is subjected to dicing, is to electrode with lithium piece, polyethylene is diaphragm material, with the hexafluorophosphoric acid of 1mol/L Lithium is electrolyte, mixed solvent volume ratio ethylene carbonate: methyl ethyl carbonate: diethyl carbonate=0.5~1.5:0.6~1.2: 0.8~1.2 can prepare for the electrolyte of solvent based on nano-carbon coated zinc oxide composite electrode.