Most materials with high thermal conductivity also have good electrical conductivity.
Diamond stands out in spite of its enormous thermal conductivity, it has little electrical conductivity. This combination of properties allows you to use diamond as a heat sink for high-power laser diodes, arrays of such diodes or high-power transistors. Effective heat removal increases the life of electronic devices, and high cost
repair and replacement of such devices compensates for the high cost of using diamonds in the design of the heat sink. Thermal distributors made of synthetic diamonds prevent overheating of silicon and other semiconductor materials.
We are always interested in expanding our partner network, and if you are interested in individual projects based on our advanced technologies for growing nitrogen-free diamond single crystals according to the highest quality standards, surpassing natural diamonds in size and characteristics, you can always contact us about the possibility of partnership and collaboration.
The process of creating a natural and synthetic diamond is extremely similar – only one occurs naturally, and the other occurs in the laboratory. We make science simple and want to share with you our innovative and advanced HPHT synthetic diamond technology.