Introduction: The MSK-USP-04C ultrasonic spray pyrolysis film coater uses a stepper motor and microprocessor to control the volumetric pump to accurately deliver the solvent. An ultrasonic nebulizer can produce thinner nano-coatings and is controlled by a stepper motor to move in the X-axis and Y-axis directions to ensure coating uniformity. At the same time the substrate temperature can be controlled to meet the experimental needs. The spray pyrolysis film forming method sprays a solution onto a heated substrate and then obtains a desired material structure on the substrate. This method of material preparation is particularly suitable for depositing oxides and has a long history of use in the preparation of transparent electrodes. This method is now widely used in the preparation of perovskite solar cells. Technical Parameters: 1. Power supply: 220V 50Hz/60Hz 2. Ultrasonic atomizer: 40KHz 200W (40-120KHz atomization head can be customized according to customer requirements) 3. Sprayer strokes in X and Y axes: 1mm-200mm 4. Sprayer movement speed: X axis direction 10mm/s-800mm/s, Y axis direction 10mm/s-100mm/s 5. Coating distance: 1mm-100mm 6. Z-axis height adjustment: 60mm 7. Heater platform: 350mm×220mm 8. Maximum heatable temperature: 500°C 9. Standard injector volume: 20 ml 10. Injection pump loading: injectors up to Ø30 mm in diameter 11. Injection speed: 0.1mm/min-45mm/min, fine adjustment speed 0.01mm/min-8mm/min 12. Stroke setting range: 0.001mm-120mm 13. Dimensions: host 1550mm × 750mm × 750mm, injection pump 250mm × 225mm × 170mm
Introduction: The MSK-USP-04C ultrasonic spray pyrolysis film coater uses a stepper motor and microprocessor to control the volumetric pump to accurately deliver the solvent. An ultrasonic nebulizer can produce thinner nano-coatings and is controlled by a stepper motor to move in the X-axis and Y-axis directions to ensure coating uniformity. At the same time the substrate temperature can be controlled to meet the experimental needs. The spray pyrolysis film forming method sprays a solution onto a heated substrate and then obtains a desired material structure on the substrate. This method of material preparation is particularly suitable for depositing oxides and has a long history of use in the preparation of transparent electrodes. This method is now widely used in the preparation of perovskite solar cells.
