Diamond, as a superhard material, has rapidly developed in various industrial sectors. Diamond has excellent comprehensive properties in mechanics, thermodynamics, optics, electronics, and chemistry, and is a new type of structural and functional material. Nanodiamonds have the dual characteristics of diamond and nanomaterials, and have shown great potential for applications in precision polishing, electrochemical detection, biomedical and quantum optics fields. However, due to their large specific surface area and high surface energy, nanodiamonds are prone to aggregation and have poor dispersion stability in media. Traditional dispersion techniques are difficult to obtain uniformly dispersed solutions.

Ultrasonic dispersion technology breaks down the barriers of traditional dispersion technology. It generates powerful shock waves and shear forces with 20000 vibrations per second, breaking down agglomerated particles and obtaining more stable dispersion liquids.

The advantages of ultrasonic disperser for nano diamond dispersion:

Preventing Agglomeration: Ultrasonic waves can effectively prevent the agglomeration of nanodiamond particles during the dispersion process. Through the action of ultrasound, the size and distribution of particles can be controlled to make the product particle size small and evenly distributed.

Crushing Aggregates: Ultrasonic waves can break down the already formed aggregates, further controlling the re aggregation of particles, thereby ensuring the uniform distribution of nanodiamonds in the solution.

Improving dispersion effect: By adopting a reasonable ultrasonic dispersion homogenizer process, the average particle size of nanodiamonds can be reduced by more than half, significantly improving their dispersion effect.

Controlling particle size: Ultrasonic waves play a crucial role in the growth stage of crystal nuclei, preventing agglomeration while also controlling particle size and distribution, ensuring small and uniform product particle size.