Spray Pyrolysis Equipment

Spray Pyrolysis Equipment – Spray Pyrolysis Technique – Cheersonic

UAM2000 Ultrasonic Spray Pyrolysis Equipment is being used in a wide variety of applications from nanoparticle formation to cyrstalline thin film deposition. Ultrasonic spray pyrolysis has been used in the formation of nanoparticles of silver, lithium manganese oxide, zinc sulfide (ZnS), lead oxide (PbO), zirconium dioxide (ZrO2) and yttria-stabalized zirconia (YSZ) ceramics. Additionally, ultrasonic spray pyrolysis is being used in the formation of transparent conductive oxide layers such as indium tin oxide (ITO), zinc oxide (ZnO), aluminum zinc oxide (AZO), and fluorine oxide all common in the solar industry.

https://cheersonic-liquid.com/en/portfolio-items/ultrasonic-spray-pyrolysis-equipment/

(1) Programmable bench top XYZ three axis exercise ultrasonic spray coating machine UAM2000 and it can be installed with one set, two sets or more ultrasonic coating systems, the frequency can be 50kHz, 120kHz or 150kHz.
(2) Bench-top platform is designed for R&D process or low-volume production.
(3) All anti-corrosion and non-clogging ultrasonic nozzles developed by Cheersonic shown create precise, repeatable, controllable, low-volume atomized spray patterns. There are two typical shape types of nozzles could be chosen: focused type with straight line shape (the width of shape: 2-10mm) or wide type with fan shape (the width of shape:10-60mm) for choose.
(4) 400*400mm of combination heat and vacuum substrate plate: the max heating is up to 150℃. It could finish adsorption and heating simultaneous to improve the uniformity of the film.
(5) The liquid delivery system including syringe pump and 25ml/50ml/100ml ultrasonic dispersion syringe to realize ultra low flow rate control. The liquid delivery system is ideal for dispersing catalyst inks or slurries.
(6) The machine is installed with intelligent programming system and friendly operation system.
(7) The vibration from ultrasonic nozzle continuously beak up agglomerated particles and keep them evenly dispersed. And it can maximize the consistency of the liquid characteristics during the spraying process.
(8) Up to 80% reduction in material consumption. Uniform and controllable coating thickness meet from ten nanometers to tens of micrometers. Coating uniformity>95%.