R&D
In addition to being the hardest material on Earth, diamonds possess extreme and diverse properties that endow them with high tensile strength, chemical inertness, broad optical transmittance, and extremely high thermal conductivity. Our collaboration with customers aims to enhance the performance of final products, thereby achieving progressive business improvements that other materials cannot match.
"Ultimate Material" for Reshaping Industries
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Precision manufacturing and tools
From ultra-precise mirror-level machining to high-speed cutting of composite materials, the limits of cutting tool durability and precision will be redefined
Thermal composite material
Utilizing the extremely high thermal conductivity of diamond (five times that of copper), we can break through the heat dissipation bottleneck in the "post-Moore era" and unleash the ultimate performance of chips
wearable devices
Special-colored diamonds are redefining "hardcore luxury", endowing technological products with enduring value
Tungsten carbide super material
The extreme properties of diamonds greatly extend the lifespan and performance of components, and transform competitive advantages
Semiconductor and microelectronics
Diamonds, as the "ultimate semiconductor material," have become the new cornerstone of the electronics industry. We should promote the application of diamonds in next-generation high-frequency, high-voltage, and high-temperature-resistant power devices
Optics and Laser Engineering
Beneficial to high transmittance across all wavelengths, diamonds maintain ultimate transparency under high pressure, strong corrosion, and high temperature, providing an unbreakable "eye" for optoelectronic instruments
Medical and Biotechnology
Leveraging the biocompatibility and atomic-level sharpness of synthetic diamonds, we explore their applications in high-end medical devices.
aerospace
With its extremely high radiation resistance, wear resistance, and thermal stability, it has become the most stable material in the harshest space environment
The future carrier of computing power
Utilizing the unique nitrogen-vacancy (NV) color center structure in diamond, ultra-high purity single crystal diamond is used for electronic and quantum computing applications