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Electronic-Grade CVD Diamond: Engineered for Advanced Technologies
Produced through chemical vapor deposition (CVD), this lab-grown diamond achieves unparalleled purity with minimal defects. Designed for cutting-edge applications, it combines extreme thermal conductivity, electrical insulation, and mechanical robustness—surpassing natural diamonds in precision engineering.
Quantum Technologies: Leveraging nitrogen-vacancy (NV) centers, CVD diamonds enable breakthroughs in quantum sensors and stable qubit development.
High-Power Electronics: Optimizes thermal management in lasers, transistors, and semiconductors for enhanced device longevity.
Medical Innovations: Biocompatible surgical tools and radiation detection systems benefit from diamond’s precision and durability.
Industrial Durability: Extends tool lifespan in cutting, drilling, and grinding operations through unmatched wear resistance.
Optical Systems: Transparent, rugged windows and lenses perform reliably in extreme environments.
Dimensions: 1×1 mm to 20×20 mm
Thickness: 0.3 mm to 3 mm
Surface Finishes:
As-grown (natural deposition state)
Precision-polished
Lapped for specialized smoothness
Edge Processing: Laser-trimmed or polished edges
Electronic Grade: Quantum optics, radiation detectors
Optical Grade: Sensors, anvil cells, precision windows
Thermal/Mechanical Grade: Industrial cutting tools
Size Available:
| Crystal growth process: | Mono crystal CVD diamond |
| Color: | Normal grade - Near colorless, Mechanic grade - Brown |
| Advantage: | 1) Regular shape, uniform size. The size can be strictly controlled according to customer needs. |
| 2) High repurchase rate and high cost performance, well received by customers. | |
| 3) No visible growth lines,under 100x microscope, no black spots, no impurities, no crack. | |
| 4) The stress is good, the number of times of reuse is high, and it is not easy to crac | |
| Size | 7*7 8*8 9*9 10*10 11*11 12*12 13*13 14*14 Thickness: 0.05-3mm |
| Orientation: | 4pt/100 |
| Shape: | Square,Triangles, rectangles, swords |
| Lateral Dimensions Measured | to smaller side |
| Edges | Laser Cut |
| Laser Kerf | < 3° |
| Lateral Tolerance: | +0.1/-0 mm |
| Roughness, Ra | 1. Two sides polished, Ra <10- 30 nm |
| 2. One side polished, the other size is The other side is the cutting surface, or grow | |
| 3.Both sides are unpolished |
Summary: A multifunctional material, electronic-grade CVD diamond drives innovation across quantum computing, medical devices, industrial engineering, and high-performance optics.
Picture details:
Electronic-Grade CVD Diamond: Engineered for Advanced Technologies
Produced through chemical vapor deposition (CVD), this lab-grown diamond achieves unparalleled purity with minimal defects. Designed for cutting-edge applications, it combines extreme thermal conductivity, electrical insulation, and mechanical robustness—surpassing natural diamonds in precision engineering.
Quantum Technologies: Leveraging nitrogen-vacancy (NV) centers, CVD diamonds enable breakthroughs in quantum sensors and stable qubit development.
High-Power Electronics: Optimizes thermal management in lasers, transistors, and semiconductors for enhanced device longevity.
Medical Innovations: Biocompatible surgical tools and radiation detection systems benefit from diamond’s precision and durability.
Industrial Durability: Extends tool lifespan in cutting, drilling, and grinding operations through unmatched wear resistance.
Optical Systems: Transparent, rugged windows and lenses perform reliably in extreme environments.
Dimensions: 1×1 mm to 20×20 mm
Thickness: 0.3 mm to 3 mm
Surface Finishes:
As-grown (natural deposition state)
Precision-polished
Lapped for specialized smoothness
Edge Processing: Laser-trimmed or polished edges
Electronic Grade: Quantum optics, radiation detectors
Optical Grade: Sensors, anvil cells, precision windows
Thermal/Mechanical Grade: Industrial cutting tools
Size Available:
| Crystal growth process: | Mono crystal CVD diamond |
| Color: | Normal grade - Near colorless, Mechanic grade - Brown |
| Advantage: | 1) Regular shape, uniform size. The size can be strictly controlled according to customer needs. |
| 2) High repurchase rate and high cost performance, well received by customers. | |
| 3) No visible growth lines,under 100x microscope, no black spots, no impurities, no crack. | |
| 4) The stress is good, the number of times of reuse is high, and it is not easy to crac | |
| Size | 7*7 8*8 9*9 10*10 11*11 12*12 13*13 14*14 Thickness: 0.05-3mm |
| Orientation: | 4pt/100 |
| Shape: | Square,Triangles, rectangles, swords |
| Lateral Dimensions Measured | to smaller side |
| Edges | Laser Cut |
| Laser Kerf | < 3° |
| Lateral Tolerance: | +0.1/-0 mm |
| Roughness, Ra | 1. Two sides polished, Ra <10- 30 nm |
| 2. One side polished, the other size is The other side is the cutting surface, or grow | |
| 3.Both sides are unpolished |
Summary: A multifunctional material, electronic-grade CVD diamond drives innovation across quantum computing, medical devices, industrial engineering, and high-performance optics.
Picture details:
