Coating System

  Fabrication Of Microfluidic Chip Fabrication Of Microfluidic Chip – Spray Microfluidic Chip Coating What is a microfluidic chip Microfluidic Chip (MicrofluidicChip), also known as Lab-on-a-Chip or biochip. It uses MEMS technology to microfilm a large laboratory system on a glass or plastic substrate, thereby replicating the entire process of complex biological and chemical reactions and completing experiments quickly and automatically. It is characterized by constructing fluid-containing channels, reaction chambers and other functional components on a micrometer scale, and manipulating the movement of micrometer-sized fluids in tiny spaces, thereby constructing a complete chemical or biological laboratory. This technology will bring disruptive breakthroughs in diagnostic fields such as genes, immunity, microbes, and clinical chemistry, making it possible to diagnose and prevent early diagnosis and prevention of many diseases that threaten human health, such as cancer and cardiovascul

Ultrasonic Stand Alone Nozzle Thin Film Coating System Ultrasonic Spray Coating System Automated, programmable Standalone coating system with coordinated XYZ motion control using Windows-based software and user-friendly teach pendant with trackball. Versatile R&D to mid-volume production thin film coatings. Work Area: 500 x 500 x 100mm,  available on request Head Configuration: up to two heads (Ultrasonic) Liquid Delivery: Syringe pump, Ultrasonic syringe pump Inline and Stand alone configurations.

Parylene Coating As commonly used in the medical industry, parylene coating refers to an organic coating material with a polycrystalline or linear structure. The parylene coating is very thin, smooth, chemically inert and has dielectric properties. In addition, parylene can perfectly conform to the matrix because it can adhere to it molecule by molecule. The coating has many uses, for example, because of its biocompatibility, medical devices can be implanted in the body with less resistance. Ultrasonic spray deposition polymerization Ultrasonic spraying can effectively deposit the parylene layer. Ultrasonic spraying has advantages in dealing with complex geometries and can ensure complete coverage of all product surfaces without orange peel. The soft atomized spray can adhere well to the surface, and the morphological characteristics of the coating can be adjusted by modifying the process parameters. High-pressure spraying and air atomizers cannot apply the coating uniformly like ultra

Optical Coating Optical and optical components are usually coated with a thin layer of material to change the light reflected or emitted from them. This material is called an optical coating, and it can be used for everything from bulbs and lenses to mirrors and prisms. The main purpose of optical coatings is to block certain wavelengths of light or to provide a highly reflective surface. In some cases, they provide two functions to reflect specific wavelengths while allowing other wavelengths to pass unimpeded. Products using optical coating Camera lenses and vanity mirrors are common examples of optical coatings at work. The camera lens uses a dielectric coating that provides an anti-reflection coating. These coatings consist of magnesium fluoride, calcium fluoride or similar materials. They allow the user to select a specific texture of light entering the camera. For example, dielectric coatings can reduce glare or enhance certain colors (wavelengths) by blocking other glare. The mi