Applications icon Jewelry Recreating natural environment of diamond growth in special laboratories, we are able to grow and facet real diamonds, that physically, chemically, optically and aesthetically are equal to the natural diamond. icon Optics Due to production know-how, we have an opportunity to grow the purest type IIa diamond plates of large sizes without any losses of unique properties of a diamond, which create new opportunities for optics production. icon Micro and power electronics We produce the purest colorless type IIa diamonds, but for micro and power electronics we are able to add the necessary concentration of boron in the synthesis process to obtain better material conductivity used in electro-chemical industries. icon Radiation detectors and monitors A single-crystal diamond with low dislocations level grown by us has a large effective surface and high sensitivity of the surface, which makes it a perspective material for particle detection in the radiation environment. icon Quantum applications The ideal atomic structure of our diamonds is perfect for research in the sphere of quantum photonics and optics. The spin of the electron in the NV center was proved to be effective media storage for information and quantum computing. icon Thermal applications Thermal conductivity of diamond plates is ranging from 1000 to 2000 W/mK, however, due to unique technology our single-crystal subs have shown better results averaging approx. 2100 W/mK. icon Manufacturing We grow flawless clean diamonds, ideal for use in the manufacturing industry icon Mechanical applications Perfect, clean diamonds of (111) and (100) have the highest level of rigidity and hardness and are ideal for high-precision mechanical engineering applications. icon CVD HPHT diamond plates are ideal substrates for deposition additional layers using CVD method.