Iridium (Ir) Coated Glass Description

Iridium (Ir) Coated Glass features a uniform iridium layer deposited onto borosilicate glass using precision thin-film techniques. The iridium coating provides chemical inertness and serves as an effective diffusion and contamination barrier during semiconductor processing. Consistent film quality is essential for maintaining optical stability and process reliability, particularly in high-temperature or chemically aggressive environments.

Iridium (Ir) Coated Glass Characteristics

The above product information is based on theoretical data and is for reference only. Actual specifications may vary.

Iridium (Ir) Coated Glass Applications

Semiconductor Manufacturing

• Used as a process control substrate in photolithography, where uniform reflectivity helps reduce exposure variability.

• Applied as a diffusion and contamination barrier in integrated circuit fabrication to enhance device reliability.

Thermal and Crystal Growth Applications

• Utilized in high-temperature crystal growth systems, benefiting from iridium’s thermal stability and chemical resistance to protect glass substrates from degradation.

Iridium (Ir) Coated Glass Packing

Iridium (Ir) Coated Glass is individually wrapped in anti-static materials and placed in cushioned protective packaging to minimize mechanical damage and particulate contamination. Products are stored under cool, dry conditions to preserve coating integrity. Custom packaging, labeling, and handling solutions are available upon request.

Additional Information

Metal-coated glass substrates play a critical role in modern semiconductor manufacturing by combining the optical properties of glass with the chemical and thermal stability of noble metals. Advances in thin-film deposition have significantly improved adhesion and uniformity, enabling iridium-coated glass to support increasingly demanding semiconductor and materials research processes.