ServiceS
Offering detailed analytical reports on the characteristics and quality of lab-grown diamonds, ensuring the highest standards.
Offering detailed analytical reports on the characteristics and quality of lab-grown diamonds, ensuring the highest standards.
Raman spectroscopy serves as an effective, non-invasive method for examining material structure and assessing its quality. It is applied technique for characterizing diamond and graphite materials.
Photoluminescence occurs when the absorbed photons excite electrons within the material.
A technique for creating diamonds involves injecting gases into a vacuum chamber and using different energy sources to trigger chemical reactions that deposit carbon atoms onto a base seed, resulting in the formation of diamond crystals. Our research lab is specialized in Microwave and Hot-filament CVD.
A technique for creating diamonds that replicates the natural conditions of the Earth’s mantle by exposing carbon precursors to high pressure and temperature in a controlled setting.
Diamond seeds act as a template that facilitates the crystalline growth of the diamond. They provide a structured surface onto which carbon atoms can deposit and form a diamond lattice. The use of diamond seeds ensures that the resulting diamond crystals have consistent quality and properties, and we will guide you on selection of application specific seed crystal.
A heat treatment process used to relieve stress and improve the crystal structure of grown diamonds, enhancing their optical and mechanical properties. We will provide research assistance and knowhow of both Low-Pressure High Temperature (LPHT) and High-Pressure High Temperature (HPHT) annealing technologies.
Raman spectroscopy serves as an effective, non-invasive method for examining material structure and assessing its quality. It is applied technique for characterizing diamond and graphite materials.
Photoluminescence occurs when the absorbed photons excite electrons within the material.
A technique for creating diamonds involves injecting gases into a vacuum chamber and using different energy sources to trigger chemical reactions that deposit carbon atoms onto a base seed, resulting in the formation of diamond crystals. Our research lab is specialized in Microwave and Hot-filament CVD.
A technique for creating diamonds that replicates the natural conditions of the Earth’s mantle by exposing carbon precursors to high pressure and temperature in a controlled setting.
Diamond seeds act as a template that facilitates the crystalline growth of the diamond. They provide a structured surface onto which carbon atoms can deposit and form a diamond lattice. The use of diamond seeds ensures that the resulting diamond crystals have consistent quality and properties, and we will guide you on selection of application specific seed crystal.
A heat treatment process used to relieve stress and improve the crystal structure of grown diamonds, enhancing their optical and mechanical properties. We will provide research assistance and knowhow of both Low-Pressure High Temperature (LPHT) and High-Pressure High Temperature (HPHT) annealing technologies.
Tokyo is the capital of Japan.
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Paris is the capital of France.
Tokyo is the capital of Japan.
InCent-LGD, 1st floor, D- block, IITM research park, Kanagam, Chennai