Method for preparing graphene by continuous peeling on basis of electrostatic repulsive force
An electrostatic repulsion, graphene technology, applied in the field of graphene material preparation technology, can solve the problems of graphene large size, difficult mass production, product pollution, etc., and achieve the effect of high hydrophobicity and less defects
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Embodiment 1
[0029] A method for preparing graphene based on continuous exfoliation by electrostatic repulsion. Firstly, ammonium source, strong alkali, and lithium source are mechanically stirred and dissolved in deionized water, then layered crystalline graphite material is added, and the ultrasonic device is turned on. After mechanical stirring and ultrasonication for a while, Graphite powder is evenly suspended in the solution to form a strong alkaline graphite slurry. Turn on the spray device and the corona device to energize, and spray the alkaline graphite slurry at high pressure above the discharge electrode of the corona device. The charge on the surface of graphite powder is highly concentrated, and the electrostatic repulsion on graphite particles is greater than the van der Waals force between layers, which rapidly splits into graphene. Finally, single-layer or few-layer graphene is obtained after separation and water washing.
[0030]Wherein, the layered crystalline graphite ...
Embodiment 2
[0035] A method for preparing graphene based on continuous exfoliation by electrostatic repulsion. Firstly, ammonium source, strong alkali, and lithium source are mechanically stirred and dissolved in deionized water, then layered crystalline graphite material is added, and the ultrasonic device is turned on. After mechanical stirring and ultrasonication for a while, Graphite powder is evenly suspended in the solution to form a strong alkaline graphite slurry. Turn on the spray device and the corona device to energize, and spray the alkaline graphite slurry at high pressure above the discharge electrode of the corona device. The charge on the surface of graphite powder is highly concentrated, and the electrostatic repulsion on graphite particles is greater than the van der Waals force between layers, which rapidly splits into graphene. Finally, single-layer or few-layer graphene is obtained after separation and water washing.
[0036] Wherein, the layered crystalline graphite...
Embodiment 3
[0041] A method for preparing graphene based on continuous exfoliation by electrostatic repulsion. Firstly, ammonium source, strong alkali, and lithium source are mechanically stirred and dissolved in deionized water, then layered crystalline graphite material is added, and the ultrasonic device is turned on. After mechanical stirring and ultrasonication for a while, Graphite powder is evenly suspended in the solution to form a strong alkaline graphite slurry. Turn on the spray device and the corona device to energize, and spray the alkaline graphite slurry at high pressure above the discharge electrode of the corona device. The charge on the surface of graphite powder is highly concentrated, and the electrostatic repulsion on graphite particles is greater than the van der Waals force between layers, which rapidly splits into graphene. Finally, single-layer or few-layer graphene is obtained after separation and water washing.
[0042] Wherein, the layered crystalline graphite...
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