Ultrasonic Dispersion Of Nanoparticles, Ultrasonic Dispersion Of Carbon Nanotubes, Ultrasonic Nanodispersion

Ultrasonic dispersion of nanomaterials is the use of local high temperature, high pressure, strong shock wave and microjet generated during ultrasonic cavitation, which greatly weakens the nano-effect energy between the nanoparticles, effectively preventing the agglomeration of the nanoparticles and fully dispersing them. Therefore, there are optimum process conditions for dispersing nanomaterials with ultrasonic waves.

In recent years, nanotechnology has developed rapidly, sweeping the entire field of science and technology, and has become a research hotspot in the textile, chemical, biological, pharmaceutical, and defense industries. Due to its good special properties, nano is widely used in coatings, plastics, rubber and ink industries. With the continuous improvement of market demand, the problem of agglomeration and dispersion of nanoparticles has seriously hindered the wide application of nanometers, which has become a very difficult problem that must be solved.

Dispersion technology is the key to affecting the performance of nanomaterials. The dispersion of nanometer in aqueous solution directly affects its practical application in nano-electroplating, photocatalytic coating and other industries. Therefore, the agglomeration problem must be solved before use. At present, research in the field of sonochemistry is very active, and the application of sonochemistry in nanomaterials is mainly based on the special dispersion properties of ultrasonic waves.