The exceptional hardness of Grown Diamonds and its very low coefficient of friction have inherent advantages in mechanical applications. It extends tool life, reduces downtime, and drives down operating costs and carbon footprints. However, Grown Diamonds is much more than just extremely hard, it can also be manufactured to have an ultra-fine edge for extreme precision.

Diamond has thermal conductivity five times that of copper and is an electrical insulator, making for a perfect heat sink. CVD Diamond has all of the properties of single crystal diamond without many of the size and shape limitations.

Use the ultra-high thermal conductivity of diamond for temperature critical packages. Higher power in smaller devices and the integration of these to other devices present heat dissipation challenges. High thermal heat flux significantly impacts performance and reliability. The unsurpassed thermal conductivity of diamond and its high electrical resistivity, allow for increased microprocessor frequency, higher output power, smaller parts and longer lifetimes.

Application of Thermal Management Grade:

• RF Power Devices
• Power Semiconductors
• High Speed Processors
• Radar Amplifiers
• High powered laser diode arrays
• LEDs
• Multi-chip power module packages
• Flip chip

Diamond has an exceptionally high transmission over a very broad range of wavelengths. It is extremely hard and chemically inert; making CVD diamond the optimal choice in applications demanding higher power, larger area, and resistance to hazardous materials or greater strength. Optical grade diamond films in a variety of thickness and cut to various geometries. Diamond exceptional properties provide benefits in variety applications:

Application of Thermal Management grade:

• High Energy Research
• X-ray
• Multi-wavelength Spectroscopy
• Infrared and Terahertz
• Microwave
• High Power Laser
• Mono-chromators