New Ultrasonic Spray Nozzle Coating System for Biosensor Ultraviolet Plastic Paint Equipment with PLC Core Components

New Ultrasonic Spray Nozzle Coating System for Biosensor

What is the ultrasonic spray nozzle?

Ultrasonic biosensor spraying is a key technology used in biosensor fabrication. It uses ultrasound to precisely spray liquid coatings onto the sensor surface, enhancing sensor performance. The following is a detailed introduction:
Operating Principle
Ultrasonic spraying technology uses a piezoelectric transducer to convert high-frequency sound waves into mechanical energy, atomizing the liquid coating into tiny droplets. These droplets are then evenly applied to the biosensor substrate surface via a carrier gas, forming a coating or thin film.
Technical Advantages
High Precision and Uniformity: Parameters such as droplet size, spray speed, and coating thickness can be precisely controlled to ensure uniform coating distribution across the biosensor surface, thereby improving sensor sensitivity and stability.
Clog-Free and High Performance: Ultrasonic spraying evenly disperses the coating, eliminating the clogging issues that can occur with traditional spraying. Furthermore, this technology offers high transmission efficiency, reducing coating waste and lowering production costs.
Material Compatibility: Ultrasonic spraying is compatible with a variety of substrates and coatings, including the sensitive elements and transducer materials commonly used in biosensors. It can evenly spray onto complex surfaces, meeting the diverse coating performance requirements of biosensors. Application Scenarios
Protein Detection Sensors: Titanium dioxide nanofibers and gold nanoparticles are deposited on the electrode surface to enhance the adsorption capacity and electrochemical activity of biomolecules, improving sensor sensitivity and detection stability.
Enzyme Sensors: Carbon nanotube and polymer composites are deposited to improve enzyme stability and response time to target molecules, extending sensor life.
DNA Sensors: Silver nanoparticles and titanium dioxide nanofibers are deposited to enhance the conductivity and surface activity of sensor electrodes, improving the sensitivity and specificity of DNA sequence detection.
Environmental Pollutant Detectors: Widely used to deposit zinc oxide nanostructures, they enhance the sensor's sensitivity and selectivity for heavy metal ions and organic pollutants, enabling real-time monitoring of environmental pollutants.

What is the parameter of the spray nozzle?

Do you have the spray nozzle pictures?

Advantages

Ultrasonic coating of silicon wafers using a painting equipment involves several steps and principles. Here’s an overview of the process:

1. Overview of Ultrasonic Coating
Ultrasonic coating utilizes high-frequency sound waves to atomize liquid photoresist into fine droplets. This technique ensures an even distribution of the coating material on the wafer surface.

2. Equipment Components
Ultrasonic Transducer: Converts electrical energy into ultrasonic waves, which create vibrations in the liquid.
Spray Nozzle: Designed to disperse the atomized photoresist onto the wafer.
Control System: Manages parameters like spray flow rate, frequency, and coating thickness.
3. Preparation Steps
Wafer Cleaning: Ensure silicon wafers are thoroughly cleaned to remove contaminants that could affect adhesion.
Photoresist Selection: Choose the appropriate type of photoresist based on the desired application and specifications.
4. Coating Process
Setup: Position the silicon wafer securely on the coating platform.
Loading Photoresist: Fill the spray gun with the selected photoresist material.
Ultrasonic Activation: Activate the ultrasonic transducer to generate high-frequency vibrations.
Spraying: The nozzle sprays the atomized photoresist onto the wafer. The ultrasonic waves help maintain a consistent droplet size for uniform coating.
Control Parameters: Adjust settings such as spray angle, distance from the wafer, and coating speed to achieve the desired thickness and uniformity.
5. Post-Coating Procedures
Drying: Allow the coated wafer to dry appropriately, either through natural evaporation or using a hot plate.
Baking: Perform soft baking to remove solvents and improve adhesion.
Inspection: Check the coated wafer for uniformity and defects.
6. Advantages of Ultrasonic Coating
Uniform Thickness: Ensures consistent coating across the entire wafer surface.
Reduced Material Waste: Efficient atomization minimizes excess photoresist usage.
Versatile Applications: Suitable for various photoresist materials and wafer sizes.
Conclusion
Ultrasonic coating is an effective method for applying photoresist to silicon wafers, enhancing precision and efficiency in semiconductor manufacturing and related fields.

How do ultrasonic spray nozzles compare to traditional spray nozzles in terms of efficiency?
Ultrasonic spray nozzles offer several advantages over traditional spray nozzles in terms of efficiency. Here are some key points of comparison:

1. Atomization Efficiency: Ultrasonic spray nozzles are highly efficient in atomizing liquids into fine droplets.

2. Reduced Overspray: Traditional spray nozzles often generate a significant amount of overspray, which refers to the loss of liquid that doesn't reach the intended target.

3. Coating Quality: Ultrasonic spray nozzles are particularly advantageous in applications where a high-quality coating is required.

4. Material Savings: Due to their efficient atomization and reduced overspray, ultrasonic spray nozzles can help save on material costs.

5. Versatility: Ultrasonic spray nozzles can handle a wide range of liquids, including water-based solutions, solvents, suspensions, and viscous fluids.

It's worth noting that traditional spray nozzles have their own advantages in certain scenarios, such as high-flow applications or situations where larger droplets are desired. The choice between ultrasonic spray nozzles and traditional spray nozzles depends on the specific requirements of the application and the desired outcome in terms of efficiency, coating quality, and material savings.
Can you provide examples of industries or applications where ultrasonic spray nozzles are commonly used?

Ultrasonic spraying system
The ultrasonic spraying equipment has self-cleaning, which can avoid pollution of the inner wall of the blood collection tube during the spraying process, and can also avoid the contamination of its own nozzle, and can be sprayed and used in cycles. The ultrasonic spraying system can program the number, distance, thickness and other parameters of spraying, so as to ensure the accuracy of the spraying effect. Ultrasonic spraying equipment can save raw materials, and the utilization rate of raw materials is as high as 85%. Industrial ultrasonic atomizers can be easily retrofitted into existing production lines for efficient spraying with consistent quality output.

As an industrially proven technology, ultrasonic spraying has been successfully applied to high-performance thin film coating lines in the manufacturing of precision electronics such as semiconductors, precision devices, nanotechnology applications, fuel cells and solar cells. During ultrasonic spraying, the size and distribution of droplets can be precisely controlled, resulting in particles with a high surface area.

Can you provide the working video of the spray nozzle?

R-Responsibility P-Products S-Service

sale the right products instead of the expensive one

Rps-sonic, consisted with a couple of young people who love ultrasonic very much.The founding members of RPS-SONIC have an average degree of Bachelor's degree or above. They have been in the ultrasonic industry for more than 5 years and have rich experience in ultrasound. The company's business philosophy is: Do not blindly promote any product, find the right product for the customer. So before each order, we will confirm all the details, including application details, equipment conditions, equipment specific information.

And we have the Professional import and export company， HangZhou LanBen Trade Co., Ltd, can export to any country wordwide.

Before year 2012, we only sale second branson / dukane / rinco / herrman/telsonic welding equipment , during these twenty year develop, we find, more and more people have problem with the core part of ultrasonic welding equipment -generator and transducer, so we decided to start our business of transducer and generator of our own transducer and generator. Many of the end user meet the transducer problem, they don’t know why transducer broken, and changing the expensive transducer one by one. Actually, one branson /dukane /rinco transducer can use 10~30 year, even the cheapest transducer can use about 5 years. So there must some reasons if your transducer broken in one year. That’s why we want build Rps-sonic, we need to help more end user to know more about transducer , to use ultrasonic equipment better, to save cost when meet problem.

The same to generator, Unreasonable operation may shorter the use-life of ultrasonic generator. So we have to make technical inquiry before operate ultrasonic welding machine. The key point of ultrasonic machine is resonance, only keep every part in resonance can make the system in best work environment.

Till now , we still have a lot of Branson /dukane/ rinco/ herrman telsonic welding machine, so that we can confirm every transducer/generator we made can matching to the original machine.

Of course we can make the transducer/generator replace for Branson /dukane/ rinco/ herrman telsonic welding machine, we can also make transducer/generator for any application of your ultrasonic equipment. We supply OEM service for oversea customers, we already have OEM customer in USA and German.

If you have any problem in ultrasonic area, welcome contact Rps-sonic.