Hangzhou Qianrong Automation Equipment Co.,Ltd
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Ultrasonic Resonance Vibration For Graphene Aggregates Delamination Dispersion
Description:
Through the cavitation effect of ultrasonic waves, a large number of tiny bubbles are generated in the liquid, which continuously expand and collapse, generating high pressure and shear force, effectively destroying graphene aggregates. At the same time, ultrasound can cause resonance vibration in monolayer graphene, thereby reducing its van der Waals force and van der Waals force, promoting graphene delamination and dispersion. In practical operation, suitable solvents (such as water, ethanol, DMF, etc.) will be added to stabilize the dispersed graphene nanosheets.
Graphene is a two-dimensional carbon material with excellent mechanical, electrical, and thermal properties, and has broad application prospects in many fields.
Parameters:
| Model | FSD-2020-PI |
| Name | 20Khz Industrial Liquid Ultrasonic Processing
|
| Frequency | 20Khz |
| Power | 2000w |
| Input Voltage | 220V±10%,50/60Hz |
| Emitter Materials | Titanium Alloy |
| Diameters of Emitter Tip | Φ50mm or Customized |
| Durable Temperature | 0-80℃ |
| Application | Ultrasonic extraction, dispersion, emulsification, defoaming, crushing, stirring |
Advantage:
Typical usage scenarios and performance advantages of graphene solutions dispersed by ultrasound in practical applications.
1. Conductive coatings and films:
Ultrasonic dispersed graphene has extremely high conductivity and can be used to prepare conductive coatings and films.
Compared to traditional conductive fillers, graphene coatings/films have better electrical properties, mechanical strength, and weather resistance.
Applied in fields such as electromagnetic shielding, electrostatic protection, battery electrodes, etc.
2. Composite materials:
By introducing dispersed graphene into polymer matrices, composite materials with excellent mechanical, thermal, and electrical properties can be prepared.
In fields such as aviation, aerospace, and automotive, these composite materials can replace traditional materials and achieve lightweight design.
3. Energy storage devices:
The excellent electrochemical performance of graphene is suitable for energy storage devices such as lithium-ion batteries and supercapacitors.
Dispersed graphene can increase the specific surface area, improve ion/electron transfer rate, and improve charging and discharging performance.
4. Biomedical applications:
Graphene nanosheets with good water solubility can be used in biomedical fields such as biological imaging and drug delivery.
Its excellent biocompatibility and low toxicity make it an ideal biomedical material.
5. Sensors:
The unique electrical and optical properties of graphene give it advantages in sensor applications such as gas detection and biological detection.
Dispersed graphene can be used to prepare highly sensitive and responsive sensor devices.
Overall, ultrasonic dispersion technology can effectively prepare high-performance graphene solutions or dispersions, providing an important material foundation for many of the aforementioned application fields.
Ultrasonic Resonance Vibration For Graphene Aggregates Delamination Dispersion