CN108470647A

CN108470647A - A kind of ultracapacitor PEDOT:PSS@g-C3N4Combination electrode material and preparation method thereof

Info

Publication number: CN108470647A
Application number: CN201810430890.8A
Authority: CN
Inventors: 鲁彦; 许璎曦; 郭建宇; 冯喆龙
Original assignee: Shanghai Institute of Technology
Current assignee: Shanghai Institute of Technology
Priority date: 2018-05-08
Filing date: 2018-05-08
Publication date: 2018-08-31
Anticipated expiration: 2038-05-08
Also published as: CN108470647B

Abstract

The invention discloses a kind of ultracapacitor PEDOT:PSS@g‑C₃N₄Combination electrode material and preparation method thereof.It includes the following steps：(1) melamine is calcined in Muffle furnace and blocky g C is made₃N₄；(2) by blocky g C₃N₄Mixture is washed till neutrality with deionized water, milk-white coloured suspension is obtained after obtained solid dialysed overnight by the chemical oxidation in potassium bichromate and the concentrated sulfuric acid after reaction, and centrifugation takes supernatant to get to g C₃N₄Nanometer sheet solution；(3) by PEDOT:PSS is added to g C₃N₄In nanometer sheet solution, after adding, ultrasonic disperse is uniform, obtains ultracapacitor combination electrode material.The present invention has good capacitive property and cyclical stability using the electrode composite material obtained by component both in the composite material respectively synergistic effect of property, is the ideal electrode material of ultracapacitor.

Description

A kind of ultracapacitor PEDOT:PSS@g-C3N4Combination electrode material and its preparation Method

Technical field

The invention belongs to electrode material for super capacitor technical field, more particularly to a kind of ultracapacitor PEDOT: PSS@g-C₃N₄Combination electrode material and preparation method thereof.

Background technology

Electrochemical capacitor is referred to as ultracapacitor, since it is with high power capacity, high power density, long-life and cost A kind of low advantage, it is considered to be the equipment of great potential of next-generation energy storage.The selection of electrode material is that influence is super The various materials as electrode of super capacitor have been studied so far in the key factor of capacitor chemical property Material, carbon material (activated carbon, carbon nanotube, graphene etc.) are widely used in electric double layer due to its bigger serface and electric conductivity In the electrode material of capacitor, but the low energy densities of carbon material ultracapacitor limit its practical application.Graphite-phase C₃N₄ (g-C₃N₄) be graphene derivative, have similar structure with graphene.It is a kind of atom of two-dimensional graphitic carbon and nitrogen Layer, due to its higher chemical stability, low cost, environment friendly, in the energy storage such as photocatalysis and fuel cell, super capacitor System is applied.Since the aspect ratio of two-dimensional material can show larger specific surface area, which can provide excellent electricity Lotus storage performance.And compared with traditional carbon material, g-C₃N₄In nitrogen can improve the electron donor characteristic of material, improve electricity The wetability for solving material in matter, further increases capacitive property.

In the past few years, conducting polymer (PANi, PPy, PTh and its derivative) is due to its good electric conductivity, change It learns and has been widely used in electrochemical capacitor with the features such as thermal stability, low material cost and quick charge/discharge capability The electrode material of device.Poly- (3,4- second dioxy thiophene):Poly- (styrene sulfonic acid) (PEDOT:PSS it) is used as one of polythiophene material, Due to can quickly be distributed to the subject and object material being used as in different solvents in supercapacitor hybrid system to carry High conductivity and performance.

Invention content

For overcome the deficiencies in the prior art, the purpose of the present invention is to provide a kind of poly- (3, the 4- Asias of ultracapacitor Ethyl dioxy thiophene)：Poly- (styrene sulfonic acid)@graphite phase carbon nitride combination electrode materials and preparation method thereof.The system of the present invention Preparation Method is simple, at low cost；Electrode composite material obtained has good capacitive property and stability.

Technical scheme of the present invention is specifically described as follows.

The present invention provides a kind of ultracapacitor PEDOT:PSS@g-C₃N₄The preparation method of combination electrode material, including Following steps：

(1) melamine is calcined in Muffle furnace and blocky g-C is made₃N₄；

(2) by blocky g-C₃N₄The chemical oxidation in potassium bichromate and the concentrated sulfuric acid will be mixed with deionized water after reaction It closes object and is washed till neutrality, milk-white coloured suspension is obtained after gained mixture dialysed overnight, centrifuge, take supernatant to get to solid content The about g-C of 1.2-1.6mg/ml₃N₄Nanometer sheet solution；

(3) according to PEDOT:PSS and g-C₃N₄The mass ratio of solid content in nanometer sheet solution is 1:1~1:7, it will PEDOT:PSS is added to the g-C of step (2)₃N₄In nanometer sheet solution, after adding, ultrasonic disperse is uniform, at a temperature of 75-85 DEG C It is dry, obtain ultracapacitor PEDOT:PSS@g-C₃N₄Combination electrode material.

In the present invention, in step (1), calcination procedure is as follows：After 540-560 DEG C being warming up to 3-6 DEG C per minute of rate, Heat preservation 3-5 hours.

In the present invention, in step (2), blocky g-C₃N₄, potassium bichromate and the concentrated sulfuric acid rate of charge be 1g:(9-11)g： (40-60)ml。

In the present invention, in step (2), centrifugation rate 2800-3200rpm.

In the present invention, in step (3), the ultrasonic disperse time is 30-90min.

In the present invention, in step (3), PEDOT:PSS and g-C₃N₄The mass ratio of solid content in nanometer sheet solution is 1:1 ~1:5.

The present invention also provides ultracapacitor PEDOT made from a kind of above-mentioned preparation method:PSS@g-C₃N₄Compound electric Pole material.

Compared with prior art, the invention has the advantages that：

(1) PEDOT that the present invention is prepared using direct mixing method:PSS@g-C₃N₄Composite process is simple, need not answer Miscellaneous equipment and of low cost, it is only necessary to the electrode of super capacitor material that the shorter time can obtain stable structure, have excellent performance Material.

(2) PEDOT prepared by the present invention:PSS@g-C₃N₄Composite material has good electrochemical stability and enhancing Capacitive property is the ideal electrode material of ultracapacitor.

Description of the drawings

Fig. 1 is the g-C that in embodiment 3 prepared by the present invention₃N₄(a) and PEDOT:PSS@g-C₃N₄(b) transmission electron microscopy Mirror TEM figures.

Fig. 2 is the PEDOT that in embodiment 3 prepared by the present invention:PSS@g-C₃N₄The Nai Kui of the electrochemical impedance spectroscopy of composite material Si Tetu.

Fig. 3 is the PEDOT that in embodiment 3 prepared by the present invention:PSS@g-C₃N₄Composite material following under different scanning rates Ring voltammogram.

Fig. 4 is the PEDOT that in embodiment 3 prepared by the present invention:PSS@g-C₃N₄Perseverance of the composite material under different current densities Flow charging and discharging curve figure.

Fig. 5 is the PEDOT that in embodiment 3 prepared by the present invention:PSS@g-C₃N₄The stable circulation performance curve of composite material Figure.

Specific implementation mode

With reference to specific embodiment and attached drawing, further the present invention is illustrated.

In embodiment, the PEDOT that uses:Its marque of PSS is CLEVIOS^TMPH 1000, solid content 1-1.3% glue Spend 15-50mPas.

Embodiment 1

Melamine is calcined in Muffle furnace prepares g-C₃N₄, calcination procedure is as follows：Calcination procedure is as follows：With 5 DEG C per minute Rate be warming up to 560 DEG C after, keep the temperature 3 hours.10g potassium bichromates and the 50mL concentrated sulfuric acids are mixed into solution in flask Become brown, 1g g-C are added₃N₄It is sufficiently stirred at room temperature 2 hours.Then mixture is washed till neutrality with deionized water, institute Obtain faint yellow solid dialysed overnight in bag filter.Finally, the milk-white coloured suspension obtained is centrifuged with 3000rpm to remove not The g-C of dispersion₃N₄, take supernatant to get the g-C for being about 1.5mg/ml to solid content₃N₄Nanometer sheet solution.By solution solid content Mass ratio 1:1 by PEDOT:PSS is added drop-wise to g-C₃N₄Ultrasound 1 hour in solution, PEDOT is obtained after 80 DEG C of dryings:PSS@g- C₃N₄(1:1) composite material.Electrochemical property test is carried out to it, the charge transfer resistance (Rct) of the composite material is 1.10, And there is lower equivalent series impedance and excellent diffusion.Cyclic voltammetry curve is in class rectangle, there is weaker oxidation Reduction peak shows the rapid electric charge transmission capacity of both electric double layer capacitance and fake capacitance.It can be calculated by charging and discharging curve, When current density is 1A g^-1When, which goes out 114F g^-1Specific capacitance value, have excellent chemical property.

Embodiment 2

Melamine is calcined in Muffle furnace prepares g-C₃N₄, calcination procedure is as follows：Calcination procedure is as follows：With 4 DEG C per minute Rate be warming up to 550 DEG C after, keep the temperature 4 hours.

11g potassium bichromates and the 40mL concentrated sulfuric acids are mixed into solution in flask and become brown, 1g g-C are added₃N₄ It is sufficiently stirred at room temperature 2 hours.Then mixture is washed till neutrality with deionized water, gained faint yellow solid is in bag filter Dialysed overnight.Finally, the milk-white coloured suspension obtained is centrifuged with 3000rpm to remove undispersed g-C₃N₄, supernatant is taken, Obtain the g-C that solid content is about 1.4mg/ml₃N₄Nanometer sheet solution.By the mass ratio 1 of solution solid content:3 by PEDOT:PSS It is added drop-wise to g-C₃N₄Ultrasound 1 hour in solution, PEDOT is obtained after 80 DEG C of dryings:PSS@g-C₃N₄(1:3) composite material.To it Electrochemical property test is carried out, the charge transfer resistance (Rct) of the composite material is 0.98, and with lower equivalent series electricity Resistance value and excellent diffusion.Cyclic voltammetry curve is in class rectangle, has weaker redox peaks, shows electric double layer capacitance With the rapid electric charge transmission capacity of both fake capacitances.It can be calculated by charging and discharging curve, when current density is 1A g^-1When, it should Composite material exhibits go out 159F g^-1Specific capacitance value, have excellent chemical property.

Embodiment 3

Melamine is calcined in Muffle furnace prepares g-C₃N₄, calcination procedure is as follows：Calcination procedure is as follows：With 5 DEG C per minute Rate be warming up to 540 DEG C after, keep the temperature 5 hours.

9g potassium bichromates and the 50mL concentrated sulfuric acids are mixed into solution in flask and become brown, 1g g-C are added₃N₄ It is sufficiently stirred at room temperature 2 hours.Then mixture is washed till neutrality with deionized water, gained faint yellow solid is saturating in bag filter Analysis is overnight.Finally, the milk-white coloured suspension obtained is centrifuged with 3100rpm to remove undispersed g-C₃N₄, supernatant is taken, i.e., Obtain the g-C that solid content is about 1.6mg/ml₃N₄Nanometer sheet solution.By the mass ratio 1 of solid content in solution:5 by PEDOT:PSS It is added drop-wise to g-C₃N₄Ultrasound 1 hour in solution, PEDOT is obtained after 80 DEG C of dryings:PSS@g-C₃N₄(1:5) composite material.To it Electrochemical property test is carried out, the charge transfer resistance (Rct) of the composite material is 0.79, and with lower equivalent series electricity Resistance value and excellent diffusion.It is specific as Figure 1-Figure 5.Fig. 1 is g-C in embodiment 3₃N₄(a) and PEDOT:PSS@g- C₃N₄(b) transmission electron microscope TEM figures.g-C₃N₄It is intended to the structure of stratiform and multilayer accumulation, PEDOT:PSS is in g-C₃N₄ It is observed that apparent contrast in figure after surface aggregate, it means that water-soluble PEDOT:PSS can be in g-C₃N₄Lamella In be stabilized.Fig. 2 is PEDOT in embodiment 3:PSS@g-C₃N₄Composite material is in 1M H₂SO₄Electrification in electrolyte solution Learn the nyquist diagram of impedance spectrum (EIS).The resistance of the material is smaller and curve is almost vertical line, shows absolute ideal Capacitance behavior.Fig. 3 is PEDOT in embodiment 3:PSS@g-C₃N₄Composite material is in 2-100mV s^-1Sweep speed under follow Ring voltammogram.Cyclic curve is in class rectangle, has weaker redox peaks, this is a typical system, shows electric double layer The rapid electric charge transmission capacity of both capacitance and fake capacitance collaboration.Fig. 4 is PEDOT in embodiment 3:PSS@g-C₃N₄Composite material In 1-10A g^-1Current density under constant current charge-discharge curve graph.Charging curve show it is fabulous linear and with discharged Discharge curve near symmetrical in journey.Discharge curve is started without apparent IR drops, shows the internal series-connection electricity of the capacitor The smaller and preferable energy-storage property of resistance.In 1A g^-1Current density under, the PEDOT that is prepared in example 3:PSS@g-C₃N₄It is compound The specific capacitance value of material is 277F g^-1.Fig. 5 is PEDOT in embodiment 3:PSS@g-C₃N₄Composite material is in 10A g^-1Electric current The cycle performance curve measured under density.The PEDOT after 5000 charge-discharge tests:PSS@g-C₃N₄Show smaller capacitance Consumption, capacitance retention rate are 94.2%, show it with good cyclical stability.

Embodiment 4

Melamine is calcined in Muffle furnace prepares g-C₃N₄, calcination procedure is as follows：Calcination procedure is as follows：With 6 DEG C per minute Rate be warming up to 550 DEG C after, keep the temperature 4 hours.

10g potassium bichromates and the 60mL concentrated sulfuric acids are mixed into solution in flask and become brown, 1g g-C are added₃N₄ It is sufficiently stirred at room temperature 2 hours.Then mixture is washed till neutrality with deionized water, gained faint yellow solid is in bag filter Dialysed overnight.Finally, the milk-white coloured suspension obtained is centrifuged with 2900rpm to remove undispersed g-C₃N₄, supernatant is taken, Obtain the g-C that solid content is about 1.5mg/ml₃N₄Nanometer sheet solution.By the mass ratio 1 of solid content in solution:7 by PEDOT: PSS is added drop-wise to g-C₃N₄Ultrasound 1 hour in solution, PEDOT is obtained after 80 DEG C of dryings:PSS@g-C₃N₄(1:7) composite material. Electrochemical property test is carried out to it, the charge transfer resistance (Rct) of the composite material is 1.02, and has lower equivalent string Join resistance value and excellent diffusion.Cyclic voltammetry curve is in class rectangle, has weaker redox peaks, shows electric double layer The rapid electric charge transmission capacity of both capacitance and fake capacitance.It can be calculated by charging and discharging curve, when current density is 1A g^-1 When, which goes out 143F g^-1Specific capacitance value, have excellent chemical property.Above example is only to this The technical solution of invention is described in further detail, and the present invention is not limited to the above embodiment.Technology people in the field The made any change or adjustment etc. to the present invention after member's reading the above, belongs to the application protection model of the present invention It encloses.

Claims

1. a kind of ultracapacitor PEDOT:PSS@g-C₃N₄The preparation method of combination electrode material, which is characterized in that including with Lower step：

(1) melamine is calcined in Muffle furnace and blocky g-C is made₃N₄；

(2) by blocky g-C₃N₄The chemical oxidation in potassium bichromate and the concentrated sulfuric acid, after reaction, with deionized water by mixture It is washed till neutrality, milk-white coloured suspension is obtained after gained mixture dialysed overnight, centrifuges, takes the supernatant to be about to get to solid content The g-C of 1.2-1.6mg/ml₃N₄Nanometer sheet solution；

(3) according to PEDOT:PSS and g-C₃N₄The mass ratio of solid content in nanometer sheet solution is 1:1~1:7, by PEDOT:PSS It is added to the g-C of step (2)₃N₄In nanometer sheet solution, after adding, ultrasonic disperse is uniform, dry at a temperature of 75-85 DEG C, obtains Ultracapacitor PEDOT:PSS@g-C₃N₄Combination electrode material.

2. preparation method according to claim 1, which is characterized in that in step (1), calcination procedure is as follows：With per minute After 3-6 DEG C of rate is warming up to 540-560 DEG C, 3-5 hours are kept the temperature.

3. preparation method according to claim 1, which is characterized in that in step (2), blocky g-C₃N₄, potassium bichromate and dense The rate of charge of sulfuric acid is 1g:(9-11)g：(40-60)ml.

4. preparation method according to claim 1, which is characterized in that in step (2), centrifugation rate 2800- 3200rpm。

5. preparation method according to claim 1, which is characterized in that in step (3), the ultrasonic disperse time is 30- 90min。

6. preparation method according to claim 1, which is characterized in that in step (3), PEDOT:PSS and g-C₃N₄Nanometer sheet The mass ratio of solid content in solution is 1:2~1:5.

7. ultracapacitor PEDOT made from a kind of preparation method according to claim 1:PSS@g-C₃N₄Compound electric Pole material.