Sapphire Ingot 99.999% Al2O3 Monocrystal KY Method LED Semiconductor

1. Abstract

Our Sapphire Material 99.999% Al2O3 Monocrystal, produced using the KY (Kyropoulos) method, is a high-quality substrate specifically designed for LED semiconductor applications. With superior optical transparency, exceptional hardness, and excellent thermal stability, this sapphire material is the ideal choice for advanced electronic and photonic devices.

2. Product & Compony Description

2.1 Product Description:

This sapphire monocrystal is composed of 99.999% pure Aluminum Oxide (Al2O3), ensuring minimal impurities and defects. The KY method of growth allows for larger crystal sizes and improved uniformity, making it suitable for high-performance applications. Sapphire ingots are typically used as raw materials for further processing. These sapphire rods and sapphire ingots are uniformly shaped, usually as cylinders. The most sapphire crystal grows in A-axis, and the most widely used sapphire substrate in the LED market is its C-plane (0001). Therefore, it is necessary to drill the c-plane sapphire ingot from the side of the crystal. As one of professional sapphire ingot manufacturers, ZMSH provides sapphire rods and ingots with ground surfaces for further processing and polishing. They are cored from high-grade Kyropoulos grown boules. We supply dia. 2-inch to 8-inch sapphire rod and ingot with any orientation and custom specifications. Flats are available upon request.

The material features:

• Color: Typically colorless or slightly blue, depending on the specific conditions of growth.
• Hardness: Rated 9 on the Mohs scale, providing excellent scratch resistance.
• Transparency: High optical clarity across a wide range of wavelengths.
• Thermal Conductivity: Exceptional thermal properties, allowing for efficient heat dissipation.

2.2 Company Description:

Our company (ZMSH) has been working in the semiconductor field for over 10 years, with professional factory &sales teams. We've got plenty experience in Customized Products. We also undertake customised design and can be OEM. We ZMSH will be the best choice copnsidering both price and quality. Feel free to contact us!

3. Applications

Our sapphire is widely used in various applications, including:

• LED Manufacturing: Serving as substrates for blue and ultraviolet LEDs, enhancing light output efficiency.
• Optical Devices: Used in lenses, windows, and other optical components due to their high transparency and hardness.
• Semiconductor Devices: Ideal for high-temperature and high-power electronics, providing reliable performance.
• Laser Technology: Utilized in solid-state lasers for its excellent thermal and optical properties.

4. Product Display - ZMSH

5. Common Questions

5.1 Q: What are sapphire ingots used for?

A: Sapphire ingots are primarily used in the production of synthetic sapphire substrates for various applications, including electronics, optoelectronics, and high-power laser systems. They are also used in the manufacturing of watch crystals, smartphone screens, and other consumer electronics due to their exceptional hardness and scratch resistance.

5.2 Q: What are the benefits of using sapphire for LEDs?

A: Sapphire substrates provide high thermal conductivity, excellent light transmission, and mechanical durability, which are essential for the performance and longevity of LED devices.

5.3 Q: How do I store and handle sapphire wafers?

A: It is recommended to store sapphire wafers in a clean, dry environment, avoiding contact with chemicals or abrasive materials. Handle with care to prevent scratching the surface.