new material
MOCVD graphite disk is a high-purity carbon component specifically designed for metal-organic chemical vapor deposition (MOCVD) processes in semiconductor and optoelectronic manufacturing. Engineered for superior thermal stability, precise structural integrity, and excellent chemical resistance, this graphite disk ensures uniform heat distribution and minimal contamination. Manufactured through advanced processing techniques, it plays a crucial role in epitaxial wafer growth, thin-film deposition, and high-performance electronic production, guaranteeing long-term reliability under extreme operating conditions.
Product Overview
The MOCVD graphite disk is a specialized component used in the Metal Organic Chemical Vapor Deposition (MOCVD) process, primarily serving as a reflector to enhance the light reflection inside the reactor. By optimizing light distribution, it improves the uniformity of the reaction process. With precision machining and uniform coating treatment, the MOCVD graphite disk boosts light intensity and deposition efficiency within the reactor. It is widely applied in high-tech manufacturing fields such as semiconductors, LEDs, and optoelectronics.
Key Features
- Excellent Light Reflection: High reflection performance that enhances the light intensity inside the reactor, ensuring uniform deposition.
- Superior High-Temperature Resistance: Can withstand the high-temperature environments generated during MOCVD processes, maintaining stable performance.
- Uniform Coating: The coating is evenly applied, improving corrosion resistance, thermal stability, and extending the product's lifespan.
- High Purity Graphite Material: Made from high purity graphite, ensuring long-term stability and reliability under extreme working conditions.
Applications
- Semiconductor Manufacturing: Used in MOCVD reactors in the semiconductor industry to optimize light reflection and ensure uniform deposition.
- LED Manufacturing: Widely used in the LED production process, enhancing light intensity and improving production efficiency.
- Optoelectronics: Applied in the manufacturing of optoelectronic components, ensuring uniformity and stability in light reflection and temperature control.
- Precision Manufacturing: Ideal for high-precision manufacturing processes, providing stable light reflection and thermal uniformity.
