CN106744804B - A kind of preparation method and supercapacitor of multi-stage porous carbon material - Google Patents

Abstract

The invention belongs to supercapacitor technologies fields, provide the preparation method and supercapacitor of a kind of multi-stage porous carbon material.The preparation method is the following steps are included: the ZIFs crystalline material that synthesis partial size is 20-200nm；ZIFs crystalline material is placed in microwave oven；In an inert atmosphere, the temperature of ZIFs crystalline material is increased to heat treatment temperature in 5min and carries out heating carbonization treatment, the pressure value of inert atmosphere is 20000-80000Pa, and the temperature for heating carbonization treatment is 800-1100 DEG C, and the time for heating carbonization treatment is 5-300min；Cooling treatment.The present invention is the ZIFs crystalline material of 20-200nm by synthesis partial size, and temperature is increased to 800 DEG C or more rapidly in 5min and carries out carbonization treatment, promotes ZIFs crystalline material to decompose rapidly, is then bonded again, ultimately generates multi-stage porous carbon material.The preparation method preparation section is simple and quick, at low cost, and can be realized effective control of multi-stage porous carbon material.

Description

A kind of preparation method and supercapacitor of multi-stage porous carbon material

Technical field

The invention belongs to the preparation methods of supercapacitor technologies field more particularly to a kind of multi-stage porous carbon material and super Capacitor.

Background technique

Supercapacitor is a kind of novel energy storage apparatus, have charge/discharge speed is fast, high-efficient, operating temperature range is wide, The features such as having extended cycle life.Porous carbon materials are due to its flourishing cellular structure, high-ratio surface, satisfactory electrical conductivity, high chemistry The advantages that stability is the preferred electrode material of supercapacitor.

Porous carbon materials can be divided into micropore (being less than 2nm), mesoporous (2-50nm) and macropore carbon materials according to its pore size Material (is greater than 50nm).Although the carbon material in different ducts the exploration of structure, pattern in terms of have been achieved for it is very big Progress, but as research is deeply with the continuous extension of practical application, single cellular structure, which being far from satisfying, to be showed Real demand.In this case, multi-stage porous carbon material comes into being.Multi-stage porous carbon material is exactly by two or more hole It is linked a kind of new carbon to form network structure, the carbon material for combining different pore structures not only has single-stage hole material The excellent properties of material, and it makes it with big specific surface area, flourishing multistage pore structure and multi-stage porous synergistic effect The characteristic better than other single pore structure carbon materials is provided in each application field.Particularly, in electrode of super capacitor The different ducts of Material Field, multi-stage porous carbon material form good mutual supplement with each other's advantages in electrochemistry, are keeping electrode material Under higher specific capacitance, moreover it is possible to which there is good high rate performance.

The method of traditional synthesis porous carbon materials is the high-temperature decomposition of carbon source presoma；And existing synthesis multi-stage porous The method of carbon material is mainly template, by the material with special pore structure as template, is then filled into precursor In die clearance, the multi-stage porous carbon material gone divided by acquisition reverse phase duplication formwork structure through precursor carbonization and template.Before Person can only obtain the porous carbon materials of single cellular structure, although and the latter can prepare the porous carbon of multi-pore channel structure Material, but preparation process has to pass through addition template, removes removing template, and process is tedious, and preparation time is long, higher cost.Most Closely also have on a small quantity about using ZIFs (Zeolitic Imidazolate Frameworks, class zeolitic imidazolate framework material) It is carbonized by high temperature pyrolysis and obtains the report of high-ratio surface porous carbon electrode material, however most of the porous carbon of this method preparation Duct range is relatively narrow, and mostly single cellular structure cannot control the multipolarization in duct.

Therefore, the preparation method of existing multi-stage porous carbon material there are porous carbon duct narrow scope, preparation section it is cumbersome, Time length and problem at high cost.

Summary of the invention

The purpose of the present invention is to provide the preparation methods and supercapacitor of a kind of multi-stage porous carbon material, it is intended to solve existing With the presence of multi-stage porous carbon material preparation method porous carbon duct narrow scope, preparation section is cumbersome, the time is long and cost High problem.

It is an object of that present invention to provide a kind of preparation method of multi-stage porous carbon material, which includes:

Synthesize the ZIFs crystalline material that partial size is 20-200nm；

The ZIFs crystalline material is placed in microwave oven；

In an inert atmosphere, the temperature of the ZIFs crystalline material heat treatment temperature is increased in 5min to heat Carbonization treatment, the pressure value of the inert atmosphere are 20000-80000Pa, and the temperature of the heating carbonization treatment is 800-1100 DEG C, the time of the heating carbonization treatment is 5-300min；

Cooling treatment.

Another object of the present invention, which also resides in, provides a kind of supercapacitor, including electrode material, and the electrode material is The preparation method of multi-stage porous carbon material, the multi-stage porous carbon material of the multi-stage porous carbon material from the above mentioned prepares.

The present invention is the ZIFs crystalline material of 20-200nm by synthesis partial size, and is rapidly increased to temperature in 5min 800 DEG C or more carry out carbonization treatment, promote ZIFs crystalline material to decompose rapidly, are then bonded again, ultimately generate multi-stage porous Carbon material.The preparation method preparation section is simple and quick, at low cost, and can be realized effective control of multi-stage porous carbon material.

Detailed description of the invention

Fig. 1 is the flow diagram of the preparation method for the multi-stage porous carbon material that one embodiment of the present of invention provides；

Fig. 2 is the cross-sectional view of the structure for the device for preparing multi-stage porous carbon material that one embodiment of the present of invention provides；

Fig. 3 is the structure top view for the device for preparing multi-stage porous carbon material that one embodiment of the present of invention provides；

Fig. 4 is another structural profile for the device for preparing multi-stage porous carbon material that one embodiment of the present of invention provides Figure.

Specific embodiment

In order to make the objectives, technical solutions, and advantages of the present invention clearer, with reference to the accompanying drawings and embodiments, right The present invention is further elaborated.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, and It is not used in the restriction present invention.

In the description of the present invention, it is to be understood that, term " first ", " second " are used for description purposes only, and cannot It is interpreted as indication or suggestion relative importance or implicitly indicates the quantity of indicated technical characteristic.Define as a result, " the One ", the feature of " second " can explicitly or implicitly include one or more of the features.In the description of the present invention, The meaning of " plurality " is two or more, unless otherwise specifically defined.

As shown in Figure 1, one embodiment of the present of invention provides a kind of preparation method of multi-stage porous carbon material comprising:

Step S101: the ZIFs crystalline material that synthesis partial size is 20-200nm.

In embodiments of the present invention, be carbonized persursor material selection be the key that be made multi-stage porous carbon, it is more in order to prepare Grade hole carbon must be by the size controlling of the ZIFs crystalline material of synthesis in 20-200nm, so that intergranular contact area to the greatest extent may be used Can be big, guarantee between subsequent ZIFs crystalline material particle it is rapid decompose, be bonded again during keep the contact of large area, with Increase the probability that multistage hole generates.In the concrete application of the embodiment of the present invention, the partial size of ZIFs crystalline material passes through ZIFs Reaction temperature, reaction density and reaction time when crystalline material synthesizes etc. control.

In embodiments of the present invention, the corresponding pattern of particle that ZIFs crystalline material partial size is 20-200nm is globoid. Other three-dimensional shapes of the surface area ratio of globoid are bigger, and particle and intergranular contact area are bigger, in this way the particle in carbonization Between form link, the probability for generating hole is bigger.Wherein, globoid refer specifically to sphere or regular dodecahedron or cube The polyhedron of the comparison rules such as body, in the concrete application of the embodiment of the present invention, ZIFs crystalline material can be in globoid Any one or a combination thereof.If the pattern not instead of globoid of ZIFs crystalline material particle, other patterns are for example, elongated It is rodlike or needle-shaped, then it is undesirable.

In embodiments of the present invention, ZIFs crystalline material specifically can be any one in class zeolitic imidazolate framework material Kind, such as ZIF-8 (molecular formula C₈H₁₂N₄Zn, structure are SOD topology), ZIF-67 (molecular formula C₈H₁₂N₄Co, structure are opened up for SOD Flutter) etc..Below by taking ZIF-8 and ZIF-67 as an example, illustrate preparation method.

The preparation method of ZIF-8, comprising the following steps:

Weigh 2.9328g Zn (NO₃)₂·6H₂O and 6.4785g 2-methylimidazole is dissolved in respectively equipped with 200mL methanol In beaker, above-mentioned solution is mixed after being uniformly dissolved, and places the beaker on magnetic stirring apparatus, gentle agitation is default at room temperature By being centrifugally separating to obtain milky white precipitate after time, grinding obtains white powder after 80-180 DEG C of drying.By test, powder The microstructure of particle is the globoid of rule, and particle diameter distribution is in 40-50nm.Wherein, preset time and reaction temperature can be with The particle size of ZIFs crystalline material as needed is defined.Specifically, preset time can be within 0.5-48h, more Specifically, it can be 1h.

The preparation method of ZIF-67, comprising the following steps:

Weigh 5.2492g Co (NO₃)₂·6H₂O and 11.5942g 2-methylimidazole is dissolved in respectively equipped with 200mL methanol In beaker, above-mentioned solution is mixed after being uniformly dissolved, and places the beaker on magnetic stirring apparatus, gentle agitation is default at room temperature By being centrifugally separating to obtain milky white precipitate after time, grinding obtains white powder after 80-180 DEG C of drying.By test, powder The microstructure of particle is the globoid of rule, and particle diameter distribution is in 80-110nm.Wherein, preset time and reaction temperature can be with The particle size of ZIFs crystalline material as needed is defined, and specifically, preset time can be within 0.5-48h, more Specifically, it can be 1h.

Step S102: ZIFs crystalline material is placed in microwave oven.

In one embodiment of the invention, step S102 is specifically included: by ZIFs crystalline material be placed in microwave by In the device of body layer, and device is placed in microwave oven；Wherein, microwave receptive layers are made of microwave receptor.

In embodiments of the present invention, microwave receptor is specially and electromagnetic wave can be absorbed and project energy transmission heat to ZIFs The substance of crystalline material can be at least one of silicon carbide, active carbon.When microwave receptor is the mixture of the two, mix Composition and division in a proportion example is unrestricted.

In embodiments of the present invention, power >=1KW of microwave oven.Since microwave receptive layers 2 are to ZIFs crystalline material Auxiliary heating, the power of microwave oven can be reduced, in a particular application, just as power >=1KW of microwave oven It may be implemented to heat ZIFs crystalline material and be carbonized, it, can also be into more specifically, when the power of microwave oven is only 1KW Row heating carbonization.Corresponding traditional microwave directly heats mode, can reduce more energy consumptions, reduce cost.

The present invention provides one be used for the ZIFs crystalline material microwave heating Installation practice, structural profile Figure is as shown in Fig. 2, structure top view is as shown in Figure 3.Specifically, described device includes being prolonged by the central axial device outer wall of device The direction stretched successively includes quartz ampoule 1, microwave receptive layers 2, wall 3 and the first insulating layer 4.

Quartz ampoule 1 includes being connected as the hollow spheres bottom of ZIFs crystalline material carbonizing zone and with hollow spheres bottom Tubing string, and hollow spheres bottom and tubing string coaxially communicate.

Microwave receptive layers 2, wall 3 and the first insulating layer 4 are tubular structure, and microwave receptive layers 2 are set in quartz The surface of pipe 1, wall 3 are set in the surface of microwave receptive layers 2, and the first insulating layer 4 is set in the surface of wall 3, and micro- Wave receptive layers 2, wall 3 form sealing in one end of hollow spheres bottom.

In embodiments of the present invention, the hollow spheres bottom of quartz ampoule 1 is as carbonizing zone, for placing ZIFs crystalline material And heating carbonization treatment is carried out to ZIFs crystalline material.Due to 1 bottom of quartz ampoule be hollow spheres, hollow spheres bottom it is close The opening bore on its head is small and the bore close to its tail portion is big, and ZIFs crystalline material can be made to be evenly distributed in carbonizing zone, It can be avoided ZIFs crystalline material simultaneously to be scattered due to the influence of air-flow to quartz ampoule 1, and then influence ZIFs crystal material The heating of material, or even the device of the external offer heat source of pollution.

Further, in embodiments of the present invention, the connection type of hollow spheres bottom and tubing string can be flexible connection, It is also possible to integrated molding.When the connection type of hollow spheres bottom and tubing string is to be flexibly connected, user can be according to stone The service condition of English pipe 1 carries out any replacement or cleaning so that quartz ampoule 1 can be multiple to hollow spheres bottom and/or tubing string It uses, has saved cost, can also be adapted to according to the tubing string of the demand replacement different length or different inner diameters that use more Carbonization Conditions or more ZIFs crystalline materials；When the connection type of hollow spheres bottom and tubing string is integrated molding, Integral replacing or cleaning can also will be carried out to quartz ampoule according to the service condition of device.

Further, in embodiments of the present invention, the internal diameter of hollow spheres bottom can be the interior of 3-5cm and/or tubing string Diameter can be 15-30mm.Specifically, the internal diameter of hollow spheres bottom can be limited as a certain specific value conduct in 3-5cm Then the inner diameter size of hollow spheres bottom changes the internal diameter numerical value of tubing string according to the practical carbonization situation of ZIFs crystalline material； The internal diameter of tubing string can also be limited as inner diameter size of a certain specific value as hollow spheres bottom in 15-30mm, then The internal diameter numerical value of hollow spheres bottom is changed according to the practical carbonization situation of ZIFs crystalline material.Such as the ZIFs for needing to be carbonized When crystalline material quality increases, there can be the quartz ampoule 1 of larger inner diameter hollow spheres bottom by replacing to increase ZIFs crystalline substance The carbonizing zone of body material；When the gas flow for needing to be passed through is bigger, there can be the quartz of larger inner diameter tubing string by replacing Pipe 1 is to increase the contact surface of ZIFs crystalline material and gas.

Further, in embodiments of the present invention, the thickness of quartz ampoule 1 can be 1.5-5mm.1 thickness of quartz ampoule is closing Increase in suitable range can play the effect of heat preservation to a certain extent, i.e., in suitable thickness range, when the thickness of quartz ampoule 1 When degree increases, quartz ampoule 1 is better to the heat insulation effect of ZIFs crystalline material.

In embodiments of the present invention, microwave receptive layers 2 are set in the surface of quartz ampoule 1, and microwave receptive layers 2 are that auxiliary is heated Body layer makes ZIFs crystalline material short for carrying out auxiliary heating to ZIFs crystalline material in the case where outside provides heat source The target temperature for reaching carbonization in time is conducive to the heating carbonization speed for improving ZIFs crystalline material.Specifically, microwave receptor Layer 2 can be it is powdered make 1 thermally equivalent of quartz ampoule preferably to contact with quartz ampoule 1, more specifically, microwave receptive layers 2 can To be made of single carbofrax material, it is also possible to that microwave heat source can be absorbed by other to carry out ZIFs crystalline material Other substances of auxiliary heating collectively constitute, for example, it may be being made of the mixture of silicon carbide and active carbon.When microwave receptor When layer is the mixture of the two, mixed proportion is unrestricted.

Wherein, ZIFs crystalline material is the substance of weak absorbing microwave, i.e. the substance of nonpolar molecule.ZIFs crystalline material exists Faint heating under directly the acting on of microwave, but since around microwave receptive layers 2 are brought rapidly up in microwave field and are ZIFs crystal Material provides heat source from outside to inside, and the heating temperature of ZIFs crystalline material is made to rise rapidly and facilitate it further in microwave It is heated and is carbonized in, reinforce the speed that ZIFs crystalline material absorbs microwave and own temperature is made to increase from inside to outside, reach fast The effect of speed auxiliary heating.Meanwhile the heating in conjunction with ZIFs crystalline material under the auxiliary heating of microwave receptive layers 2 from outside to inside And heating in microwave field from inside to outside and the heating that makes ZIFs crystalline material more uniform while being rapidly heated Carbonization.

Further, in embodiments of the present invention, the internal diameter of microwave receptive layers 2 can be 1.5-5cm；Microwave receptive layers 2 Thickness can be 1-3cm.The internal diameter and thickness of microwave receptive layers 2 can be defined simultaneously, can also individually limit internal diameter For 1.5-5cm a certain specific value and change the thickness sizes of microwave receptive layers 2, or individually limit with a thickness of 1-3cm's A certain specific value and the inner diameter size for changing microwave receptive layers 2.

In embodiments of the present invention, wall 3 is set in the surface of microwave receptive layers 2, for completely cutting off 2 He of microwave receptive layers First insulating layer 4, prevent microwave receptive layers 2 heat up when temperature it is excessively high caused by the first insulating layer 4 hot-spot and ablation. When microwave receptive layers 2 are made of silicon carbide powder, wall 3 is also as the device for containing silicon carbide powder.Wall 3 can be with By it is resistant to high temperature and not with the material composition of silicon carbide reactor, more specifically, wall 3 can be alumina layer.

Further, in embodiments of the present invention, the internal diameter of wall 3 is 4-10cm；And/or wall 3 with a thickness of 2-5mm.Such as summarize in specific embodiment, internal diameter 6cm, with a thickness of 3mm.

In embodiments of the present invention, the first insulating layer 4 is set in the surface of wall 3.Wherein, the first insulating layer 4 is uniform Be distributed on the outer surface of the central axis away from device of wall 3, enable wall 3 uniformly by the first insulating layer 4 are covered, to keep the temperature to wall 3 and by the inside microwave receptive layers 2 and quartz ampoule 1 that wall 3 wraps up.

Further, in embodiments of the present invention, the first insulating layer 4 with a thickness of 3-8cm, such as specific embodiment converge Always, with a thickness of 6cm.By the control to 4 thickness of the first insulating layer, so that effectively playing insulation effect to wall 3 Meanwhile reduction is to the consumption of the first insulating layer 4.In another embodiment, the material of first insulating layer 4 can with but not only Select any one of common asbestos, high alumina asbestos, cotton containing zircon, mullite fiber blanket.Certainly, as long as being that by heat preservation Other heat preservation heat-resisting materials of effect may be incorporated for preparing the first insulating layer 4 of the invention.

In embodiments of the present invention, microwave receptive layers 2, wall 3 and the first insulating layer 4 are tubular structure, and micro- Wave receptive layers 2, wall 3 form sealing in one end of hollow spheres bottom.The present apparatus by microwave receptive layers 2, wall 3 with And first insulating layer 4 be disposed as tubular structure, can effectively control microwave receptive layers 2, wall 3 and the first insulating layer 4 adjacent two layers, adjacent three layers of distance value can also effectively control each layer at a distance from device central axis, therefore, microwave receptor Layer 2, wall 3 and the first heat preservation can with uniform heat temperature raising carried out to internal corresponding each layer and uniform protect Temperature, heating carbonization that can be more uniform to ZIFs crystalline material are kept the temperature.The present apparatus is by microwave receptive layers 2, wall 3 in One end of empty spherical bottom forms sealing, can effectively wrap up hollow spheres bottom comprehensively, plays the effect for promoting heating comprehensively Fruit.

Further, in embodiments of the present invention, as shown in figure 4, in order to further so that the present apparatus is reached better guarantor Temp effect, device further include the second insulating layer 5 for having the end that the nearly hollow spheres bottom of the first insulating layer 4 is arranged in, for pair Microwave receptive layers 2, wall 3 further are kept the temperature in the sealing that one end of hollow spheres bottom is formed.In specific embodiment In, the material of second insulating layer 5 can with but not only select common asbestos, high alumina asbestos, cotton containing zircon, mullite fiber blanket Any one of, it can also select but not just for asbestos brick.

In embodiments of the present invention, the device with microwave receptive layers makes ZIFs crystalline material in a short time in carbonizing zone Reach target temperature, heat it is more uniform it is quick, high-efficient, low energy consumption, operation is convenient, while avoiding ZIFs crystalline material pair The pollution of microwave cavity.

Step S103: in an inert atmosphere, in 5min by the temperature of ZIFs crystalline material be increased to heat treatment temperature into Row heating carbonization treatment, the pressure value of inert atmosphere are 20000-80000Pa, and the temperature for heating carbonization treatment is 800-1100 DEG C, the time for heating carbonization treatment is 5-300min.

In embodiments of the present invention, the temperature of ZIFs crystalline material is increased to target heat-treatment temperature in 5min, it is fast Violent heating can generate fulminant heat and act on ZIFs crystalline material, promote C-H, C- of ZIFs crystalline material molecule The keys such as O and C-N are largely broken rapidly, bond together to form H again₂O, CO₂, NO₂Equal gases evolution, thus realize carbonization, but due to The speed for forming gas evolution is far smaller than the speed decomposed, and can also be mutually bonded between ZIFs particle, eventually form mutual chain The hole network structure connect.

In embodiments of the present invention, oxygen or the presence of other gases make to send out in ZIFs crystalline material carbonisation in order to prevent Other reactions, the carbonization treatments of ZIFs crystalline material such as raw oxidation carry out in an inert atmosphere.Inert atmosphere includes but is not limited to Vacuum nitrogen environment.As a preferred embodiment, inert atmosphere vacuumizes-nitrogen charging gas disposal realization by repeating, and vacuumizes-nitrogen charging The number of gas disposal is at least 3 times.Specifically, ZIFs crystalline material is placed in after microwave oven, vacuumize, stops vacuumizing It is then vacuumized again with purged with nitrogen flow afterwards, nitrogen stream is replaced more than three times.

In embodiments of the present invention, in order to prevent air remaining in microwave oven can under high temperature rough vacuum ion Change, form ion beam to generate vacuum arc, is unfavorable for the electromagnetism carbonization of ZIFs crystalline material, needing will be in microwave oven Vacuum degree control in appropriate range.It specifically, can be by the vacuum degree control in microwave oven in 20000- In the range of 80000Pa, more specifically, the vacuum degree in microwave oven can be the range arbitrary number of 20000-80000Pa Value can choose integer value corresponding with microwave oven vacuum meter in order to facilitate reading, can also exist according to actual needs It is chosen within the scope of 20000-80000Pa.

In embodiments of the present invention, during the heating carbonization treatment of ZIFs crystalline material, the temperature of carbonization treatment is heated There are stringent control in degree, time.Heating temperature is excessively high or heating time is too long, since vaporization is stronger in activation process, holds Unformed porous contraction is easily led to, hole is eventually led to and collapses to form macropore, is unfavorable for gas storage；And heating temperature is too low or adds The hot time is too short, cannot achieve preferable carbonization effect, is equally unfavorable for obtaining multi-stage porous carbon material.In view of this, of the invention The temperature that embodiment heats carbonization treatment is 800-1100 DEG C, time 5-300min.

The embodiment of the present invention is prepared in porous carbon materials method, and the temperature control of carbonization treatment process also affects multistage The carbonizing degree and carbonization quality of hole carbon material.Further preferred 900-1050 DEG C of the embodiment of the present invention is used as activation temperature.This The temperature that inventive embodiments heat carbonization treatment is still more preferably 980 DEG C or so, at this point, prepared porous carbon materials Porosity is preferable, and preparation cost, time are all relatively inexpensive.

Step S104: cooling treatment.

In embodiments of the present invention, cooling treatment carries out in an inert atmosphere.Terminate when heating is carbonized, stops microwave, i.e., Stop heating at once, cooling rapidly, the time required to can shortening cooling, effectively improves efficiency, reduces cost.Therefore, cooling The decline natural cooling that handling can be with furnace temperature certainly, can also be lazy in order to accelerate cooling rate again on the original basis Property air-flow, as cooled under nitrogen stream to be cooled to room temperature obtained porous carbon materials.

The present invention is the ZIFs crystalline material of 20-200nm by synthesis partial size, and is rapidly increased to temperature in 5min 800 DEG C or more carry out carbonization treatment, promote ZIFs crystalline material to decompose rapidly, are then bonded again, ultimately generate multi-stage porous Carbon material.The preparation method preparation section is simple and quick, at low cost, and can be realized effective control of multi-stage porous carbon material.

It is illustrated below in conjunction with specific embodiment.

Embodiment 1

Step S1011: the ZIF-8 that synthesis partial size is 45nm.

The ZIF-8: being sent into the hollow spheres bottom of quartz ampoule 1 by step S1021, and being placed into package has carborundum powder End alumina spacer layer in, and with cut out regular asbestos by alumina spacer layer package it is regular be placed in microwave oven, The alumina spacer layer with silicon carbide powder and quartz ampoule position are adjusted, ZIF-8 in infrared temperature sensor alignment pipe is made.

Step S1031: closing fire door, closes vacuum release valve, presses and vacuumize button, after furnace chamber is evacuated to vacuum, closes It closes and vacuumizes button, and being filled with nitrogen to cavity air pressure in cavity is 60kPa, repeats vacuum nitrogen gas twice, finally It is 20kPa that nitrogen, which is charged to air pressure,.Microwave heating is opened, adjustment microwave power is 2.5kW, rises to temperature in 5mins 1000 DEG C, then adjusting microwave power makes temperature in 1000 DEG C of holding 120mins.

Step S1041: closing microwave, and fire door is opened after temperature drops to room temperature, and collecting good material and numbering can be obtained Multi-stage porous carbon material.

Embodiment 2

Step S1012: the ZIF-67 that synthesis partial size is 90nm.

The ZIF-67: being sent into the hollow spheres bottom of quartz ampoule 1 by step S1022, and being placed into package has silicon carbide In the alumina spacer layer of powder, and alumina spacer layer package regular is placed in microwave oven with regular asbestos are cut out In, the alumina spacer layer with silicon carbide powder and quartz ampoule position are adjusted, ZIF- in infrared temperature sensor alignment pipe is made 67。

Step S1032: closing fire door, closes vacuum release valve, presses and vacuumize button, after furnace chamber is evacuated to vacuum, closes It closes and vacuumizes button, and being filled with nitrogen to cavity air pressure in cavity is 60kPa, repeats vacuum nitrogen gas twice, finally It is 30kPa that nitrogen, which is charged to air pressure,.Microwave heating is opened, adjustment microwave power is 3kW, and temperature is made to rise to 900 in 3mins DEG C, then adjusting microwave power makes temperature in 900 DEG C of holding 180mins.

Step S1042: closing microwave, and fire door is opened after temperature drops to room temperature, and collecting good material and numbering can be obtained Multi-stage porous carbon material.

The present invention also provides a kind of supercapacitor, including electrode material, electrode material is multi-stage porous carbon material, multistage The preparation method of the multi-stage porous carbon material of hole carbon material from the above mentioned prepares.

The above is merely preferred embodiments of the present invention, be not intended to limit the invention, it is all in spirit of the invention and Made any modifications, equivalent replacements, and improvements etc., should all be included in the protection scope of the present invention within principle.

Claims (7)

1. a kind of preparation method of multi-stage porous carbon material, which is characterized in that the preparation method of the multi-stage porous carbon material includes:

Synthesize the ZIFs crystalline material that partial size is 20-200nm；

The ZIFs crystalline material is placed in microwave oven；

In an inert atmosphere, the temperature of the ZIFs crystalline material is increased to heat treatment temperature in 5min and carries out heating carbonization Processing, the pressure value of the inert atmosphere are 20000-80000Pa, and the temperature of the heating carbonization treatment is 800-1100 DEG C, The time of the heating carbonization treatment is 5-300min；

Cooling treatment；

It is described that the ZIFs crystalline material is placed in the step in microwave oven, comprising:

The ZIFs crystalline material is placed in the device with microwave receptive layers, and described device is placed in microwave oven In；Wherein, the microwave receptive layers are made of microwave receptor；

The microwave receptor is at least one of silicon carbide, active carbon；

Described device includes:

It successively include quartz ampoule, microwave receptive layers, wall and the by the direction that the central axial device outer wall of device extends One insulating layer；

The quartz ampoule include as the ZIFs crystalline material carbonizing zone hollow spheres bottom and with the hollow spheres bottom The connected tubing string in portion, and the hollow spheres bottom and the tubing string coaxially communicate；

The microwave receptive layers, the wall and first insulating layer are tubular structure, the microwave receptive layers set It is located at the surface of the quartz ampoule, the wall is set in the surface of the microwave receptive layers, and first insulating layer is arranged On the surface of the wall, and the microwave receptive layers, the wall are formed in one end of the hollow spheres bottom Sealing.

2. the preparation method of multi-stage porous carbon material as described in claim 1, which is characterized in that the ZIFs crystalline material is class Spherical particles.

3. the preparation method of multi-stage porous carbon material as described in claim 1, which is characterized in that described device further includes the second guarantor The end of the closely described hollow spheres bottom of first insulating layer is arranged in warm layer, second insulating layer.

4. the preparation method of multi-stage porous carbon material as described in claim 1, which is characterized in that the inert atmosphere is nitrogen gas Atmosphere.

5. the preparation method of multi-stage porous carbon material as described in claim 1, which is characterized in that the power of the microwave oven ≥1KW。

6. the preparation method of multi-stage porous carbon material as described in claim 1, which is characterized in that the temperature of the heating carbonization treatment Degree is 900-1050 DEG C.

7. a kind of supercapacitor, including electrode material, the electrode material is multi-stage porous carbon material, which is characterized in that described Multi-stage porous carbon material is prepared by the preparation method of the described in any item multi-stage porous carbon materials of the claims 1~6.