Nanotechnology and nanomaterials are regarded as one of the most important technologies of human beings in the 21st century. Ultrasonic atomization and dispersion technology plays an increasingly important role in the production of nano-materials such as nano-powders, carbon nanotubes, polymer fibers, and nano-films.
Ultrasonic spray pyrolysis
Using ultrasonic atomization technology, the solution can be evenly atomized into micron or even nanoscale liquid particles, and the atomized liquid droplets are transported into the high-temperature reaction furnace through the carrier gas for thermal cracking reaction. Ultrasonic spray pyrolysis can produce more uniform and fine powder particles than conventional pyrolysis methods.
Nano- and sub-micron film functional coatings such as hydrophilic, hydrophobic, transparent and conductive, catalytic, antibacterial, anti-reflection, anti-reflection, light blocking, etc., are widely used in microelectronics, biomedicine, glass, textiles, new energy, etc. industry sector.
Ultrasonic spray drying
Using ultrasonic atomization technology, the suspension can be evenly atomized into micron or even nanoscale liquid particles, and the atomized liquid droplets are sent into a drying furnace for drying through a carrier gas. The ultrasonic spray drying method can produce powder particles that are more uniform and finer than conventional spray drying (centrifugal spray or two-fluid spray). In the nanomaterials, fine chemicals, biomedicine and other fields have great prospects.