CN108298528A - A method of preparing redox graphene - Google Patents

Abstract

A method of redox graphene is prepared, including：Step 1：5g graphite, 1g sodium nitrate are weighed, 2 grams of potassium nitrate and 2 grams of sodium bicarbonates are placed in the beaker of 1000mL, the 150mL concentrated sulfuric acids are slowly added into beaker, beaker is placed in ice-water bath, magnetic agitation 1h;Step 2：Weigh 15g potassium permanganate and 2 grams of sodium permanganates, be slowly added in beaker and be stirred continuously, keep in beaker mixture temperature 30 DEG C hereinafter, beaker to be placed in room temperature later under be stirred continuously for 24 hours.

Description

A method of preparing redox graphene

Technical field

The present invention relates to a kind of methods preparing redox graphene.

Background technology

The method flow in the prior art for preparing redox graphene is complicated, low precision, not environmentally.

Invention content

A method of redox graphene is prepared, including：

Step 1：5g graphite is weighed, 1g sodium nitrate, 2 grams of potassium nitrate and 2 grams of sodium bicarbonates are placed in the beaker of 1000mL, to beaker In be slowly added to the 150mL concentrated sulfuric acids, beaker is placed in ice-water bath, magnetic agitation 1h;

Step 2：15g potassium permanganate and 2 grams of sodium permanganates are weighed, is slowly added in beaker and is stirred continuously, keep mixing in beaker Close object temperature 30 DEG C hereinafter, beaker to be placed in room temperature later under be stirred continuously for 24 hours;

Step 3：Beaker is placed in ice-water bath, 300mL deionized waters are slowly added to and is stirred continuously, mixture in beaker is kept Temperature is at 98 DEG C hereinafter, being then slowly added into the aqueous hydrogen peroxide solution that 30mL mass fractions are 30% and being stirred continuously;

Step 4：Mixed solution is packed into centrifuge tube, 30min is centrifuged at 8000rpm, supernatant liquid is removed, sediment is taken Go out, the aqueous hydrochloric acid solution for being 10% with volume fraction wash and centrifuged 6 times, sediment is taken out to be placed in bag filter carries out by a definite date 3 The dialysis in week obtains graphite oxide suspension to remove salt ion and acid ion completely;

Step 5：Graphite oxide suspension is scattered in deionized water, configuration quality score is the suspension of 1mg/mL, to it Ultrasonic disperse processing is carried out, ultrasonic time 1h centrifuges 30min and removes unstripped graphite oxide at 3,000 rpm, final to obtain To graphene oxide aqueous dispersions；

Step 6：Using graphene oxide aqueous dispersions made from step 5, configuration concentration is the graphene oxide water of 0.3mg/mL Dispersion liquid takes 500mL graphene oxide aqueous dispersions to be placed in three-neck flask；

Step 7：Three-neck flask is fixed on iron stand, middle port and side eck are covered tightly with glass stopper, pass through the other side It is molten that the hydrazine that the ammonium hydroxide that 1mL mass fractions are 28wt.% and 80 μ L mass fractions are 80wt.% is added into three-neck flask for eck Then liquid also covers tightly this side port with glass stopper, and carry out abundant magnetic agitation；

Step 8：Spiral coil cooling tube is placed on the interstitial hole of three-neck flask, is opened cooling water and is filled coiled pipe and keep water outlet Flow be in small thread shape, adjust iron stand geometrical clamp position, three-neck flask is placed in 95 DEG C of oil bath and reacts 1h, Period keeps sufficient magnetic agitation, after completion of the reaction takes out three-neck flask from oil bath；

Step 9：After cooled to room temperature, the black suspension in bottle is filtered to remove in draught cupboard after three-neck flask It removes to swim in apparent large stretch of carbon-coating on liquid level, redox graphene is obtained after then suspension is filtered and dried.

The redox graphene of the present invention can be applied to super capacitor.

Inventive point is：1）Complete reaction process；2）Material used；3）Concrete component.

Specific implementation mode

Embodiment 1

A method of redox graphene is prepared, including：

Step 1：5g graphite is weighed, 1g sodium nitrate, 2 grams of potassium nitrate and 2 grams of sodium bicarbonates are placed in the beaker of 1000mL, to beaker In be slowly added to the 150mL concentrated sulfuric acids, beaker is placed in ice-water bath, magnetic agitation 1h;

Step 2：15g potassium permanganate and 2 grams of sodium permanganates are weighed, is slowly added in beaker and is stirred continuously, keep mixing in beaker Close object temperature 30 DEG C hereinafter, beaker to be placed in room temperature later under be stirred continuously for 24 hours;

Step 3：Beaker is placed in ice-water bath, 300mL deionized waters are slowly added to and is stirred continuously, mixture in beaker is kept Temperature is at 98 DEG C hereinafter, being then slowly added into the aqueous hydrogen peroxide solution that 30mL mass fractions are 30% and being stirred continuously;

Step 4：Mixed solution is packed into centrifuge tube, 30min is centrifuged at 8000rpm, supernatant liquid is removed, sediment is taken Go out, the aqueous hydrochloric acid solution for being 10% with volume fraction wash and centrifuged 6 times, sediment is taken out to be placed in bag filter carries out by a definite date 3 The dialysis in week obtains graphite oxide suspension to remove salt ion and acid ion completely;

Step 5：Graphite oxide suspension is scattered in deionized water, configuration quality score is the suspension of 1mg/mL, to it Ultrasonic disperse processing is carried out, ultrasonic time 1h centrifuges 30min and removes unstripped graphite oxide at 3,000 rpm, final to obtain To graphene oxide aqueous dispersions；

Step 6：Using graphene oxide aqueous dispersions made from step 5, configuration concentration is the graphene oxide water of 0.3mg/mL Dispersion liquid takes 500mL graphene oxide aqueous dispersions to be placed in three-neck flask；

Step 7：Three-neck flask is fixed on iron stand, middle port and side eck are covered tightly with glass stopper, pass through the other side It is molten that the hydrazine that the ammonium hydroxide that 1mL mass fractions are 28wt.% and 80 μ L mass fractions are 80wt.% is added into three-neck flask for eck Then liquid also covers tightly this side port with glass stopper, and carry out abundant magnetic agitation；

Step 8：Spiral coil cooling tube is placed on the interstitial hole of three-neck flask, is opened cooling water and is filled coiled pipe and keep water outlet Flow be in small thread shape, adjust iron stand geometrical clamp position, three-neck flask is placed in 95 DEG C of oil bath and reacts 1h, Period keeps sufficient magnetic agitation, after completion of the reaction takes out three-neck flask from oil bath；

Step 9：After cooled to room temperature, the black suspension in bottle is filtered to remove in draught cupboard after three-neck flask It removes to swim in apparent large stretch of carbon-coating on liquid level, redox graphene is obtained after then suspension is filtered and dried.

The redox graphene of the present invention can be applied to super capacitor.

Embodiment 2

A method of redox graphene is prepared, including：

Step 1：5g graphite is weighed, 1g sodium nitrate, 2 grams of potassium nitrate and 2.2 grams of sodium bicarbonates are placed in the beaker of 1000mL, to burning The 150mL concentrated sulfuric acids are slowly added in cup, beaker are placed in ice-water bath, magnetic agitation 1h;

Step 2：15g potassium permanganate and 2 grams of sodium permanganates are weighed, is slowly added in beaker and is stirred continuously, keep mixing in beaker Close object temperature 30 DEG C hereinafter, beaker to be placed in room temperature later under be stirred continuously for 24 hours;

Step 3：Beaker is placed in ice-water bath, 300mL deionized waters are slowly added to and is stirred continuously, mixture in beaker is kept Temperature is at 98 DEG C hereinafter, being then slowly added into the aqueous hydrogen peroxide solution that 30mL mass fractions are 30% and being stirred continuously;

Step 4：Mixed solution is packed into centrifuge tube, 30min is centrifuged at 8000rpm, supernatant liquid is removed, sediment is taken Go out, the aqueous hydrochloric acid solution for being 10% with volume fraction wash and centrifuged 6 times, sediment is taken out to be placed in bag filter carries out by a definite date 3 The dialysis in week obtains graphite oxide suspension to remove salt ion and acid ion completely;

Step 5：Graphite oxide suspension is scattered in deionized water, configuration quality score is the suspension of 1mg/mL, to it Ultrasonic disperse processing is carried out, ultrasonic time 1h centrifuges 30min and removes unstripped graphite oxide at 3,000 rpm, final to obtain To graphene oxide aqueous dispersions；

Step 6：Using graphene oxide aqueous dispersions made from step 5, configuration concentration is the graphene oxide water of 0.3mg/mL Dispersion liquid takes 500mL graphene oxide aqueous dispersions to be placed in three-neck flask；

Step 7：Three-neck flask is fixed on iron stand, middle port and side eck are covered tightly with glass stopper, pass through the other side It is molten that the hydrazine that the ammonium hydroxide that 1mL mass fractions are 28wt.% and 80 μ L mass fractions are 80wt.% is added into three-neck flask for eck Then liquid also covers tightly this side port with glass stopper, and carry out abundant magnetic agitation；

Step 8：Spiral coil cooling tube is placed on the interstitial hole of three-neck flask, is opened cooling water and is filled coiled pipe and keep water outlet Flow be in small thread shape, adjust iron stand geometrical clamp position, three-neck flask is placed in 95 DEG C of oil bath and reacts 1h, Period keeps sufficient magnetic agitation, after completion of the reaction takes out three-neck flask from oil bath；

Step 9：After cooled to room temperature, the black suspension in bottle is filtered to remove in draught cupboard after three-neck flask It removes to swim in apparent large stretch of carbon-coating on liquid level, redox graphene is obtained after then suspension is filtered and dried.

The redox graphene of the present invention can be applied to super capacitor.

Embodiment 3

A method of redox graphene is prepared, including：

Step 1：5g graphite is weighed, 1g sodium nitrate, 2 grams of potassium nitrate and 2.3 grams of sodium bicarbonates are placed in the beaker of 1000mL, to burning The 150mL concentrated sulfuric acids are slowly added in cup, beaker are placed in ice-water bath, magnetic agitation 1h;

Step 2：15g potassium permanganate and 2 grams of sodium permanganates are weighed, is slowly added in beaker and is stirred continuously, keep mixing in beaker Close object temperature 30 DEG C hereinafter, beaker to be placed in room temperature later under be stirred continuously for 24 hours;

Step 3：Beaker is placed in ice-water bath, 300mL deionized waters are slowly added to and is stirred continuously, mixture in beaker is kept Temperature is at 98 DEG C hereinafter, being then slowly added into the aqueous hydrogen peroxide solution that 30mL mass fractions are 30% and being stirred continuously;

Step 4：Mixed solution is packed into centrifuge tube, 30min is centrifuged at 8000rpm, supernatant liquid is removed, sediment is taken Go out, the aqueous hydrochloric acid solution for being 10% with volume fraction wash and centrifuged 6 times, sediment is taken out to be placed in bag filter carries out by a definite date 3 The dialysis in week obtains graphite oxide suspension to remove salt ion and acid ion completely;

Step 5：Graphite oxide suspension is scattered in deionized water, configuration quality score is the suspension of 1mg/mL, to it Ultrasonic disperse processing is carried out, ultrasonic time 1h centrifuges 30min and removes unstripped graphite oxide at 3,000 rpm, final to obtain To graphene oxide aqueous dispersions；

Step 6：Using graphene oxide aqueous dispersions made from step 5, configuration concentration is the graphene oxide water of 0.3mg/mL Dispersion liquid takes 500mL graphene oxide aqueous dispersions to be placed in three-neck flask；

Step 7：Three-neck flask is fixed on iron stand, middle port and side eck are covered tightly with glass stopper, pass through the other side It is molten that the hydrazine that the ammonium hydroxide that 1mL mass fractions are 28wt.% and 80 μ L mass fractions are 80wt.% is added into three-neck flask for eck Then liquid also covers tightly this side port with glass stopper, and carry out abundant magnetic agitation；

Step 8：Spiral coil cooling tube is placed on the interstitial hole of three-neck flask, is opened cooling water and is filled coiled pipe and keep water outlet Flow be in small thread shape, adjust iron stand geometrical clamp position, three-neck flask is placed in 95 DEG C of oil bath and reacts 1h, Period keeps sufficient magnetic agitation, after completion of the reaction takes out three-neck flask from oil bath；

Step 9：After cooled to room temperature, the black suspension in bottle is filtered to remove in draught cupboard after three-neck flask It removes to swim in apparent large stretch of carbon-coating on liquid level, redox graphene is obtained after then suspension is filtered and dried.

The redox graphene of the present invention can be applied to super capacitor.

Embodiment 4

A method of redox graphene is prepared, including：

Step 1：5g graphite is weighed, 1g sodium nitrate, 2 grams of potassium nitrate and 2.4 grams of sodium bicarbonates are placed in the beaker of 1000mL, to burning The 150mL concentrated sulfuric acids are slowly added in cup, beaker are placed in ice-water bath, magnetic agitation 1h;

Step 2：15g potassium permanganate and 2 grams of sodium permanganates are weighed, is slowly added in beaker and is stirred continuously, keep mixing in beaker Close object temperature 30 DEG C hereinafter, beaker to be placed in room temperature later under be stirred continuously for 24 hours;

Step 3：Beaker is placed in ice-water bath, 300mL deionized waters are slowly added to and is stirred continuously, mixture in beaker is kept Temperature is at 98 DEG C hereinafter, being then slowly added into the aqueous hydrogen peroxide solution that 30mL mass fractions are 30% and being stirred continuously;

Step 4：Mixed solution is packed into centrifuge tube, 30min is centrifuged at 8000rpm, supernatant liquid is removed, sediment is taken Go out, the aqueous hydrochloric acid solution for being 10% with volume fraction wash and centrifuged 6 times, sediment is taken out to be placed in bag filter carries out by a definite date 3 The dialysis in week obtains graphite oxide suspension to remove salt ion and acid ion completely;

Step 5：Graphite oxide suspension is scattered in deionized water, configuration quality score is the suspension of 1mg/mL, to it Ultrasonic disperse processing is carried out, ultrasonic time 1h centrifuges 30min and removes unstripped graphite oxide at 3,000 rpm, final to obtain To graphene oxide aqueous dispersions；

Step 6：Using graphene oxide aqueous dispersions made from step 5, configuration concentration is the graphene oxide water of 0.3mg/mL Dispersion liquid takes 500mL graphene oxide aqueous dispersions to be placed in three-neck flask；

Step 7：Three-neck flask is fixed on iron stand, middle port and side eck are covered tightly with glass stopper, pass through the other side It is molten that the hydrazine that the ammonium hydroxide that 1mL mass fractions are 28wt.% and 80 μ L mass fractions are 80wt.% is added into three-neck flask for eck Then liquid also covers tightly this side port with glass stopper, and carry out abundant magnetic agitation；

Step 8：Spiral coil cooling tube is placed on the interstitial hole of three-neck flask, is opened cooling water and is filled coiled pipe and keep water outlet Flow be in small thread shape, adjust iron stand geometrical clamp position, three-neck flask is placed in 95 DEG C of oil bath and reacts 1h, Period keeps sufficient magnetic agitation, after completion of the reaction takes out three-neck flask from oil bath；

Step 9：After cooled to room temperature, the black suspension in bottle is filtered to remove in draught cupboard after three-neck flask It removes to swim in apparent large stretch of carbon-coating on liquid level, redox graphene is obtained after then suspension is filtered and dried.

The redox graphene of the present invention can be applied to super capacitor.

Embodiment 5

A method of redox graphene is prepared, including：

Step 1：5g graphite is weighed, 1g sodium nitrate, 2 grams of potassium nitrate and 2.5 grams of sodium bicarbonates are placed in the beaker of 1000mL, to burning The 150mL concentrated sulfuric acids are slowly added in cup, beaker are placed in ice-water bath, magnetic agitation 1h;

Step 2：15g potassium permanganate and 2 grams of sodium permanganates are weighed, is slowly added in beaker and is stirred continuously, keep mixing in beaker Close object temperature 30 DEG C hereinafter, beaker to be placed in room temperature later under be stirred continuously for 24 hours;

Step 3：Beaker is placed in ice-water bath, 300mL deionized waters are slowly added to and is stirred continuously, mixture in beaker is kept Temperature is at 98 DEG C hereinafter, being then slowly added into the aqueous hydrogen peroxide solution that 30mL mass fractions are 30% and being stirred continuously;

Step 4：Mixed solution is packed into centrifuge tube, 30min is centrifuged at 8000rpm, supernatant liquid is removed, sediment is taken Go out, the aqueous hydrochloric acid solution for being 10% with volume fraction wash and centrifuged 6 times, sediment is taken out to be placed in bag filter carries out by a definite date 3 The dialysis in week obtains graphite oxide suspension to remove salt ion and acid ion completely;

Step 5：Graphite oxide suspension is scattered in deionized water, configuration quality score is the suspension of 1mg/mL, to it Ultrasonic disperse processing is carried out, ultrasonic time 1h centrifuges 30min and removes unstripped graphite oxide at 3,000 rpm, final to obtain To graphene oxide aqueous dispersions；

Step 6：Using graphene oxide aqueous dispersions made from step 5, configuration concentration is the graphene oxide water of 0.3mg/mL Dispersion liquid takes 500mL graphene oxide aqueous dispersions to be placed in three-neck flask；

Step 7：Three-neck flask is fixed on iron stand, middle port and side eck are covered tightly with glass stopper, pass through the other side It is molten that the hydrazine that the ammonium hydroxide that 1mL mass fractions are 28wt.% and 80 μ L mass fractions are 80wt.% is added into three-neck flask for eck Then liquid also covers tightly this side port with glass stopper, and carry out abundant magnetic agitation；

Step 8：Spiral coil cooling tube is placed on the interstitial hole of three-neck flask, is opened cooling water and is filled coiled pipe and keep water outlet Flow be in small thread shape, adjust iron stand geometrical clamp position, three-neck flask is placed in 95 DEG C of oil bath and reacts 1h, Period keeps sufficient magnetic agitation, after completion of the reaction takes out three-neck flask from oil bath；

Step 9：After cooled to room temperature, the black suspension in bottle is filtered to remove in draught cupboard after three-neck flask It removes to swim in apparent large stretch of carbon-coating on liquid level, redox graphene is obtained after then suspension is filtered and dried.

The redox graphene of the present invention can be applied to super capacitor.

Embodiment 6

A method of redox graphene is prepared, including：

Step 1：5g graphite is weighed, 1g sodium nitrate, 2 grams of potassium nitrate and 2.6 grams of sodium bicarbonates are placed in the beaker of 1000mL, to burning The 150mL concentrated sulfuric acids are slowly added in cup, beaker are placed in ice-water bath, magnetic agitation 1h;

Step 2：15g potassium permanganate and 2 grams of sodium permanganates are weighed, is slowly added in beaker and is stirred continuously, keep mixing in beaker Close object temperature 30 DEG C hereinafter, beaker to be placed in room temperature later under be stirred continuously for 24 hours;

Step 3：Beaker is placed in ice-water bath, 300mL deionized waters are slowly added to and is stirred continuously, mixture in beaker is kept Temperature is at 98 DEG C hereinafter, being then slowly added into the aqueous hydrogen peroxide solution that 30mL mass fractions are 30% and being stirred continuously;

Step 4：Mixed solution is packed into centrifuge tube, 30min is centrifuged at 8000rpm, supernatant liquid is removed, sediment is taken Go out, the aqueous hydrochloric acid solution for being 10% with volume fraction wash and centrifuged 6 times, sediment is taken out to be placed in bag filter carries out by a definite date 3 The dialysis in week obtains graphite oxide suspension to remove salt ion and acid ion completely;

Step 5：Graphite oxide suspension is scattered in deionized water, configuration quality score is the suspension of 1mg/mL, to it Ultrasonic disperse processing is carried out, ultrasonic time 1h centrifuges 30min and removes unstripped graphite oxide at 3,000 rpm, final to obtain To graphene oxide aqueous dispersions；

Step 6：Using graphene oxide aqueous dispersions made from step 5, configuration concentration is the graphene oxide water of 0.3mg/mL Dispersion liquid takes 500mL graphene oxide aqueous dispersions to be placed in three-neck flask；

Step 7：Three-neck flask is fixed on iron stand, middle port and side eck are covered tightly with glass stopper, pass through the other side It is molten that the hydrazine that the ammonium hydroxide that 1mL mass fractions are 28wt.% and 80 μ L mass fractions are 80wt.% is added into three-neck flask for eck Then liquid also covers tightly this side port with glass stopper, and carry out abundant magnetic agitation；

Step 8：Spiral coil cooling tube is placed on the interstitial hole of three-neck flask, is opened cooling water and is filled coiled pipe and keep water outlet Flow be in small thread shape, adjust iron stand geometrical clamp position, three-neck flask is placed in 95 DEG C of oil bath and reacts 1h, Period keeps sufficient magnetic agitation, after completion of the reaction takes out three-neck flask from oil bath；

Step 9：After cooled to room temperature, the black suspension in bottle is filtered to remove in draught cupboard after three-neck flask It removes to swim in apparent large stretch of carbon-coating on liquid level, redox graphene is obtained after then suspension is filtered and dried.

The redox graphene of the present invention can be applied to super capacitor.

Embodiment 7

A method of redox graphene is prepared, including：

Step 1：5g graphite is weighed, 1g sodium nitrate, 2 grams of potassium nitrate and 2.7 grams of sodium bicarbonates are placed in the beaker of 1000mL, to burning The 150mL concentrated sulfuric acids are slowly added in cup, beaker are placed in ice-water bath, magnetic agitation 1h;

Step 2：15g potassium permanganate and 2 grams of sodium permanganates are weighed, is slowly added in beaker and is stirred continuously, keep mixing in beaker Close object temperature 30 DEG C hereinafter, beaker to be placed in room temperature later under be stirred continuously for 24 hours;

Step 3：Beaker is placed in ice-water bath, 300mL deionized waters are slowly added to and is stirred continuously, mixture in beaker is kept Temperature is at 98 DEG C hereinafter, being then slowly added into the aqueous hydrogen peroxide solution that 30mL mass fractions are 30% and being stirred continuously;

Step 4：Mixed solution is packed into centrifuge tube, 30min is centrifuged at 8000rpm, supernatant liquid is removed, sediment is taken Go out, the aqueous hydrochloric acid solution for being 10% with volume fraction wash and centrifuged 6 times, sediment is taken out to be placed in bag filter carries out by a definite date 3 The dialysis in week obtains graphite oxide suspension to remove salt ion and acid ion completely;

Step 5：Graphite oxide suspension is scattered in deionized water, configuration quality score is the suspension of 1mg/mL, to it Ultrasonic disperse processing is carried out, ultrasonic time 1h centrifuges 30min and removes unstripped graphite oxide at 3,000 rpm, final to obtain To graphene oxide aqueous dispersions；

Step 6：Using graphene oxide aqueous dispersions made from step 5, configuration concentration is the graphene oxide water of 0.3mg/mL Dispersion liquid takes 500mL graphene oxide aqueous dispersions to be placed in three-neck flask；

Step 7：Three-neck flask is fixed on iron stand, middle port and side eck are covered tightly with glass stopper, pass through the other side It is molten that the hydrazine that the ammonium hydroxide that 1mL mass fractions are 28wt.% and 80 μ L mass fractions are 80wt.% is added into three-neck flask for eck Then liquid also covers tightly this side port with glass stopper, and carry out abundant magnetic agitation；

Step 8：Spiral coil cooling tube is placed on the interstitial hole of three-neck flask, is opened cooling water and is filled coiled pipe and keep water outlet Flow be in small thread shape, adjust iron stand geometrical clamp position, three-neck flask is placed in 95 DEG C of oil bath and reacts 1h, Period keeps sufficient magnetic agitation, after completion of the reaction takes out three-neck flask from oil bath；

Step 9：After cooled to room temperature, the black suspension in bottle is filtered to remove in draught cupboard after three-neck flask It removes to swim in apparent large stretch of carbon-coating on liquid level, redox graphene is obtained after then suspension is filtered and dried.

The redox graphene of the present invention can be applied to super capacitor.

Embodiment 8

A method of redox graphene is prepared, including：

Step 1：5g graphite is weighed, 1g sodium nitrate, 2 grams of potassium nitrate and 2.8 grams of sodium bicarbonates are placed in the beaker of 1000mL, to burning The 150mL concentrated sulfuric acids are slowly added in cup, beaker are placed in ice-water bath, magnetic agitation 1h;

Step 2：15g potassium permanganate and 2 grams of sodium permanganates are weighed, is slowly added in beaker and is stirred continuously, keep mixing in beaker Close object temperature 30 DEG C hereinafter, beaker to be placed in room temperature later under be stirred continuously for 24 hours;

Step 3：Beaker is placed in ice-water bath, 300mL deionized waters are slowly added to and is stirred continuously, mixture in beaker is kept Temperature is at 98 DEG C hereinafter, being then slowly added into the aqueous hydrogen peroxide solution that 30mL mass fractions are 30% and being stirred continuously;

Step 4：Mixed solution is packed into centrifuge tube, 30min is centrifuged at 8000rpm, supernatant liquid is removed, sediment is taken Go out, the aqueous hydrochloric acid solution for being 10% with volume fraction wash and centrifuged 6 times, sediment is taken out to be placed in bag filter carries out by a definite date 3 The dialysis in week obtains graphite oxide suspension to remove salt ion and acid ion completely;

Step 5：Graphite oxide suspension is scattered in deionized water, configuration quality score is the suspension of 1mg/mL, to it Ultrasonic disperse processing is carried out, ultrasonic time 1h centrifuges 30min and removes unstripped graphite oxide at 3,000 rpm, final to obtain To graphene oxide aqueous dispersions；

Step 6：Using graphene oxide aqueous dispersions made from step 5, configuration concentration is the graphene oxide water of 0.3mg/mL Dispersion liquid takes 500mL graphene oxide aqueous dispersions to be placed in three-neck flask；

Step 7：Three-neck flask is fixed on iron stand, middle port and side eck are covered tightly with glass stopper, pass through the other side It is molten that the hydrazine that the ammonium hydroxide that 1mL mass fractions are 28wt.% and 80 μ L mass fractions are 80wt.% is added into three-neck flask for eck Then liquid also covers tightly this side port with glass stopper, and carry out abundant magnetic agitation；

Step 8：Spiral coil cooling tube is placed on the interstitial hole of three-neck flask, is opened cooling water and is filled coiled pipe and keep water outlet Flow be in small thread shape, adjust iron stand geometrical clamp position, three-neck flask is placed in 95 DEG C of oil bath and reacts 1h, Period keeps sufficient magnetic agitation, after completion of the reaction takes out three-neck flask from oil bath；

Step 9：After cooled to room temperature, the black suspension in bottle is filtered to remove in draught cupboard after three-neck flask It removes to swim in apparent large stretch of carbon-coating on liquid level, redox graphene is obtained after then suspension is filtered and dried.

The redox graphene of the present invention can be applied to super capacitor.

Embodiment 9

A method of redox graphene is prepared, including：

Step 1：5g graphite is weighed, 1g sodium nitrate, 2 grams of potassium nitrate and 2.9 grams of sodium bicarbonates are placed in the beaker of 1000mL, to burning The 150mL concentrated sulfuric acids are slowly added in cup, beaker are placed in ice-water bath, magnetic agitation 1h;

Step 2：15g potassium permanganate and 2 grams of sodium permanganates are weighed, is slowly added in beaker and is stirred continuously, keep mixing in beaker Close object temperature 30 DEG C hereinafter, beaker to be placed in room temperature later under be stirred continuously for 24 hours;

Step 3：Beaker is placed in ice-water bath, 300mL deionized waters are slowly added to and is stirred continuously, mixture in beaker is kept Temperature is at 98 DEG C hereinafter, being then slowly added into the aqueous hydrogen peroxide solution that 30mL mass fractions are 30% and being stirred continuously;

Step 4：Mixed solution is packed into centrifuge tube, 30min is centrifuged at 8000rpm, supernatant liquid is removed, sediment is taken Go out, the aqueous hydrochloric acid solution for being 10% with volume fraction wash and centrifuged 6 times, sediment is taken out to be placed in bag filter carries out by a definite date 3 The dialysis in week obtains graphite oxide suspension to remove salt ion and acid ion completely;

Step 5：Graphite oxide suspension is scattered in deionized water, configuration quality score is the suspension of 1mg/mL, to it Ultrasonic disperse processing is carried out, ultrasonic time 1h centrifuges 30min and removes unstripped graphite oxide at 3,000 rpm, final to obtain To graphene oxide aqueous dispersions；

Step 6：Using graphene oxide aqueous dispersions made from step 5, configuration concentration is the graphene oxide water of 0.3mg/mL Dispersion liquid takes 500mL graphene oxide aqueous dispersions to be placed in three-neck flask；

Step 7：Three-neck flask is fixed on iron stand, middle port and side eck are covered tightly with glass stopper, pass through the other side It is molten that the hydrazine that the ammonium hydroxide that 1mL mass fractions are 28wt.% and 80 μ L mass fractions are 80wt.% is added into three-neck flask for eck Then liquid also covers tightly this side port with glass stopper, and carry out abundant magnetic agitation；

Step 8：Spiral coil cooling tube is placed on the interstitial hole of three-neck flask, is opened cooling water and is filled coiled pipe and keep water outlet Flow be in small thread shape, adjust iron stand geometrical clamp position, three-neck flask is placed in 95 DEG C of oil bath and reacts 1h, Period keeps sufficient magnetic agitation, after completion of the reaction takes out three-neck flask from oil bath；

Step 9：After cooled to room temperature, the black suspension in bottle is filtered to remove in draught cupboard after three-neck flask It removes to swim in apparent large stretch of carbon-coating on liquid level, redox graphene is obtained after then suspension is filtered and dried.

The redox graphene of the present invention can be applied to super capacitor.

Embodiment 10

A method of redox graphene is prepared, including：

Step 1：5g graphite is weighed, 1g sodium nitrate, 2 grams of potassium nitrate and 3 grams of sodium bicarbonates are placed in the beaker of 1000mL, to beaker In be slowly added to the 150mL concentrated sulfuric acids, beaker is placed in ice-water bath, magnetic agitation 1h;

Step 2：15g potassium permanganate and 2 grams of sodium permanganates are weighed, is slowly added in beaker and is stirred continuously, keep mixing in beaker Close object temperature 30 DEG C hereinafter, beaker to be placed in room temperature later under be stirred continuously for 24 hours;

Step 3：Beaker is placed in ice-water bath, 300mL deionized waters are slowly added to and is stirred continuously, mixture in beaker is kept Temperature is at 98 DEG C hereinafter, being then slowly added into the aqueous hydrogen peroxide solution that 30mL mass fractions are 30% and being stirred continuously;

Step 4：Mixed solution is packed into centrifuge tube, 30min is centrifuged at 8000rpm, supernatant liquid is removed, sediment is taken Go out, the aqueous hydrochloric acid solution for being 10% with volume fraction wash and centrifuged 6 times, sediment is taken out to be placed in bag filter carries out by a definite date 3 The dialysis in week obtains graphite oxide suspension to remove salt ion and acid ion completely;

Step 5：Graphite oxide suspension is scattered in deionized water, configuration quality score is the suspension of 1mg/mL, to it Ultrasonic disperse processing is carried out, ultrasonic time 1h centrifuges 30min and removes unstripped graphite oxide at 3,000 rpm, final to obtain To graphene oxide aqueous dispersions；

Step 6：Using graphene oxide aqueous dispersions made from step 5, configuration concentration is the graphene oxide water of 0.3mg/mL Dispersion liquid takes 500mL graphene oxide aqueous dispersions to be placed in three-neck flask；

Step 7：Three-neck flask is fixed on iron stand, middle port and side eck are covered tightly with glass stopper, pass through the other side It is molten that the hydrazine that the ammonium hydroxide that 1mL mass fractions are 28wt.% and 80 μ L mass fractions are 80wt.% is added into three-neck flask for eck Then liquid also covers tightly this side port with glass stopper, and carry out abundant magnetic agitation；

Step 8：Spiral coil cooling tube is placed on the interstitial hole of three-neck flask, is opened cooling water and is filled coiled pipe and keep water outlet Flow be in small thread shape, adjust iron stand geometrical clamp position, three-neck flask is placed in 95 DEG C of oil bath and reacts 1h, Period keeps sufficient magnetic agitation, after completion of the reaction takes out three-neck flask from oil bath；

Step 9：After cooled to room temperature, the black suspension in bottle is filtered to remove in draught cupboard after three-neck flask It removes to swim in apparent large stretch of carbon-coating on liquid level, redox graphene is obtained after then suspension is filtered and dried.

The redox graphene of the present invention can be applied to super capacitor.

Embodiment 11

A method of redox graphene is prepared, including：

Step 1：5g graphite is weighed, 1g sodium nitrate, 2 grams of potassium nitrate and 3.1 grams of sodium bicarbonates are placed in the beaker of 1000mL, to burning The 150mL concentrated sulfuric acids are slowly added in cup, beaker are placed in ice-water bath, magnetic agitation 1h;

Step 2：15g potassium permanganate and 2 grams of sodium permanganates are weighed, is slowly added in beaker and is stirred continuously, keep mixing in beaker Close object temperature 30 DEG C hereinafter, beaker to be placed in room temperature later under be stirred continuously for 24 hours;

Step 3：Beaker is placed in ice-water bath, 300mL deionized waters are slowly added to and is stirred continuously, mixture in beaker is kept Temperature is at 98 DEG C hereinafter, being then slowly added into the aqueous hydrogen peroxide solution that 30mL mass fractions are 30% and being stirred continuously;

Step 4：Mixed solution is packed into centrifuge tube, 30min is centrifuged at 8000rpm, supernatant liquid is removed, sediment is taken Go out, the aqueous hydrochloric acid solution for being 10% with volume fraction wash and centrifuged 6 times, sediment is taken out to be placed in bag filter carries out by a definite date 3 The dialysis in week obtains graphite oxide suspension to remove salt ion and acid ion completely;

Step 5：Graphite oxide suspension is scattered in deionized water, configuration quality score is the suspension of 1mg/mL, to it Ultrasonic disperse processing is carried out, ultrasonic time 1h centrifuges 30min and removes unstripped graphite oxide at 3,000 rpm, final to obtain To graphene oxide aqueous dispersions；

Step 6：Using graphene oxide aqueous dispersions made from step 5, configuration concentration is the graphene oxide water of 0.3mg/mL Dispersion liquid takes 500mL graphene oxide aqueous dispersions to be placed in three-neck flask；

Step 7：Three-neck flask is fixed on iron stand, middle port and side eck are covered tightly with glass stopper, pass through the other side It is molten that the hydrazine that the ammonium hydroxide that 1mL mass fractions are 28wt.% and 80 μ L mass fractions are 80wt.% is added into three-neck flask for eck Then liquid also covers tightly this side port with glass stopper, and carry out abundant magnetic agitation；

Step 8：Spiral coil cooling tube is placed on the interstitial hole of three-neck flask, is opened cooling water and is filled coiled pipe and keep water outlet Flow be in small thread shape, adjust iron stand geometrical clamp position, three-neck flask is placed in 95 DEG C of oil bath and reacts 1h, Period keeps sufficient magnetic agitation, after completion of the reaction takes out three-neck flask from oil bath；

Step 9：After cooled to room temperature, the black suspension in bottle is filtered to remove in draught cupboard after three-neck flask It removes to swim in apparent large stretch of carbon-coating on liquid level, redox graphene is obtained after then suspension is filtered and dried.

The redox graphene of the present invention can be applied to super capacitor.

Claims (2)

1. a kind of method preparing redox graphene, including：

Step 1：5g graphite is weighed, 1g sodium nitrate, 2 grams of potassium nitrate and 2 grams of sodium bicarbonates are placed in the beaker of 1000mL, to beaker In be slowly added to the 150mL concentrated sulfuric acids, beaker is placed in ice-water bath, magnetic agitation 1h;

Step 2：15g potassium permanganate and 2 grams of sodium permanganates are weighed, is slowly added in beaker and is stirred continuously, keep mixing in beaker Close object temperature 30 DEG C hereinafter, beaker to be placed in room temperature later under be stirred continuously for 24 hours;

Step 3：Beaker is placed in ice-water bath, 300mL deionized waters are slowly added to and is stirred continuously, mixture in beaker is kept Temperature is at 98 DEG C hereinafter, being then slowly added into the aqueous hydrogen peroxide solution that 30mL mass fractions are 30% and being stirred continuously;

Step 4：Mixed solution is packed into centrifuge tube, 30min is centrifuged at 8000rpm, supernatant liquid is removed, sediment is taken Go out, the aqueous hydrochloric acid solution for being 10% with volume fraction wash and centrifuged 6 times, sediment is taken out to be placed in bag filter carries out by a definite date 3 The dialysis in week obtains graphite oxide suspension to remove salt ion and acid ion completely;

Step 5：Graphite oxide suspension is scattered in deionized water, configuration quality score is the suspension of 1mg/mL, to it Ultrasonic disperse processing is carried out, ultrasonic time 1h centrifuges 30min and removes unstripped graphite oxide at 3,000 rpm, final to obtain To graphene oxide aqueous dispersions；

Step 6：Using graphene oxide aqueous dispersions made from step 5, configuration concentration is the graphene oxide water of 0.3mg/mL Dispersion liquid takes 500mL graphene oxide aqueous dispersions to be placed in three-neck flask；

Step 7：Three-neck flask is fixed on iron stand, middle port and side eck are covered tightly with glass stopper, pass through the other side It is molten that the hydrazine that the ammonium hydroxide that 1mL mass fractions are 28wt.% and 80 μ L mass fractions are 80wt.% is added into three-neck flask for eck Then liquid also covers tightly this side port with glass stopper, and carry out abundant magnetic agitation；

Step 8：Spiral coil cooling tube is placed on the interstitial hole of three-neck flask, is opened cooling water and is filled coiled pipe and keep water outlet Flow be in small thread shape, adjust iron stand geometrical clamp position, three-neck flask is placed in 95 DEG C of oil bath and reacts 1h, Period keeps sufficient magnetic agitation, after completion of the reaction takes out three-neck flask from oil bath；

Step 9：After cooled to room temperature, the black suspension in bottle is filtered to remove in draught cupboard after three-neck flask It removes to swim in apparent large stretch of carbon-coating on liquid level, redox graphene is obtained after then suspension is filtered and dried.

2. the redox graphene of the present invention can be applied to super capacitor.