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40Khz Ultrasonic In Organic Chemistry With Titanium Horn
Description:
40 kHz ultrasound is an important tool in organic chemistry, which causes molecular vibrations when propagated in liquids, increases the contact between solvents and solids, produces different physical and chemical effects, significantly improves reaction efficiency and extraction efficiency, and promotes the development of green chemistry.
The application of 40Khz ultrasound in organic chemistry not only shortens the reaction time of the solution, improves the purity and yield of the product, but also reduces the amount of solvent used, lowers the risk of environmental pollution, and is suitable for the extraction and synthesis of thermosensitive compounds.
Parameters:
| Model | FSD-4005-GL |
| Name | 40Khz Ultrasonic Cell Fragmentation |
| Frequency | 40Khz |
| Power | 500w |
| Input Voltage | 220V±10%,50/60Hz |
| Emitter Materials | Titanium Alloy |
| Emitter Type | Focus Type |
| Durable Temperature | 0-80℃ |
| Component Accessories | Ultrasonic Generator, Ultrasonic Vibration System, Ultrasonic Horn |
Application Manifestation :
1. Ultrasonic synthesis:
By using ultrasound to promote chemical reactions, the reaction rate is accelerated and the yield of products is increased. For example, in the synthesis of certain organic compounds, ultrasound can enhance the mixing and collision between reactants.
2. Ultrasonic extraction:
Ultrasonic waves can be used to enhance the efficiency of substance extraction in liquids. In organic chemistry, ultrasound can effectively extract active ingredients or other compounds from plants, reducing the use of solvents and extraction time.
3. Catalytic reaction:
The use of ultrasound can improve the efficiency of catalytic reactions. The effect of ultrasound can increase the surface area of the catalyst, helping reactants to better contact the catalyst.
4. Material surface treatment:
In organic chemistry, ultrasound can be used to clean and treat the surfaces of reactors, reagents, and products, remove impurities, and improve the purity of the reaction.
5. Aggregation reaction:
In polymerization reactions, ultrasound can promote the polymerization of monomers, improve the molecular weight and uniformity of polymers.
6. Molecular dispersion:
Ultrasonic waves can be used to disperse solid particles in liquids, which is crucial in the preparation of nanomaterials and composite materials.
40Khz Ultrasonic In Organic Chemistry With Titanium Horn
