Advanced material science solutions for semiconductor-grade diamond substrates and high-purity lab-grown diamonds. Driven by precision plasma physics for the next generation of industry.
Neevika Gen LLP is a premier, technology-driven manufacturer specializing in the synthesis of high-purity lab-grown diamonds and advanced diamond wafers.
Utilizing state-of-the-art Microwave Plasma Chemical Vapor Deposition (MPCVD) technology, we engineer high-performance single-crystal and polycrystalline diamond structures tailored for both luxury gemological markets and next-generation industrial applications.
"Our mission is to provide an ethical, scalable, and physically superior alternative to mined diamonds, driving innovation in both electronics and luxury markets."
Conflict-Free Output
Vertical Integration
Impurity Control
B2B Distribution
We maintain absolute control over the growth environment, allowing us to minimize defect densities and produce stones of superior optical and structural integrity.
Utilizing high-frequency microwave energy to create a stable, high-density plasma ball. This dissociates hydrogen and methane gas mixtures with extreme efficiency.
Layer-by-layer carbon atom deposition onto meticulously prepared diamond seed substrates, ensuring perfect continuation of the crystalline lattice structure.
Precise, automated regulation of substrate temperature (900-1200°C) and gas chemistry to prevent graphite formation and ensure 100% sp³ bonded carbon.
Discover how our synthesized diamonds power next-generation technology and luxury.
Diamond is the ultimate wide-bandgap semiconductor material. We process high-thermal-conductivity wafers specifically engineered for thermal management in high-power electronics, 5G/6G RF devices, and EV power inverters.
We synthesize Type IIa gem-quality diamonds that are chemically, physically, and optically identical to mined stones. Our process yields exceptionally pure, colorless, and fancy-color diamonds for high-end jewelry brands.
Our R&D pipeline specializes in doping precision, specifically engineering Nitrogen-Vacancy (NV) centers within the diamond lattice. These act as perfectly stable qubits for room-temperature quantum computing and ultra-sensitive magnetometry.
Synthesizing optical-grade diamond substrates capable of withstanding extreme environments. Used globally as high-transmissivity windows for high-power CO2 lasers, multispectral imaging, and deep-space sensors.
Engage with our technical sales and engineering teams to acquire datasheets, request material samples, or discuss custom MPCVD synthesis parameters.
F.P.NO.8/A (PAIKI),1ST FLOOR,OPP: INDEN GAS
GODOWN NEAR RAJUL TOWER,
SURAT, Gujarat, India - 395008
The Global Hub for Diamond Innovation
+91 (Inquiry Line Active)
Our supply chain policy is available on request, and any grievance related to company policies and procedures can be reported at info@ceesix.in