POWERING THE FUTURE, HARNESSING THE UNIQUE PROPERTIES OF DIAMOND
Among the most versatile supermaterials on earth, diamonds are uniquely suited to advance technological discovery. At WD, our renowned team of PhDs, scientists and engineers focus their research and development on breakthrough diamond applications to solve the world's most critical challenges. Pushing beyond form factor restrictions of the past, we provide cutting-edge diamond solutions for the future — reducing reliance on fossil fuels, powering quantum technologies, accelerating telecommunications reinvention, and democratizing clean air and water. Through power and purpose, WD stays true to our legacy of disruption.
The future's most important supermaterial.
Made from pure carbon atoms tetrahedrally bonded in a crystalline structure, diamond is the only material — natural or engineered — to deliver unique physical and atomic properties that can be used to solve key technical challenges across industries.
HIGH STRENGTH
THERMAL EXPANSION
LOW FRICTION COEFFICIIENT
SOUND PROPAGATION
EXTREME HARDNESS
THERMAL CONDUCTIVITY
CHEMICAL STABILITY
BROAD OPTICAL TRANSPARENCY
WE ARE USHERING IN THE DIAMOND AGE
JOIN US IN FUELING THE INNOVATION OF TOMORROW
EV
Reducing the reliance on fossil fuels and democratizing access to new electric technology
QUANTUM
Developing device solutions that power efficient, scalable quantum computing
TELECOM
Enabling next generation,
high-performance systems
for a more connected world
STERILIZATION
Creating effective, lifesaving systems that expand availability of clean air and purified water
CVD diamond grades.
Through major form factor advances, WD creates scientific-grade diamond material to precise order specification, spanning edge lengths, surface orientations, and final material preparation.
01_ Quantum
Isotopically pure, highly polished diamond wafers that feature nitrogen vacancy (NV) centers, for use in next-gen research and advanced technologies
02_ Conductive
Boron-doped, rough-cut to semi-polished wafers for use in nano-indentors, deep-UV LEDs and other semi-conductor devices, among other conductive diamond applications
03_ Intrinsic
Ultra-pure, undoped diamond material in rough cut or semi-polished form for use in sensitive thermal substrate and optical applications, including synchrotrons
04_ Optical
​Semi- to- fully-polished low-defect diamond material, for use in a variety of applications including high-power electronics and surgical blades
Looking for custom diamond solutions?
Reach out today to connect with the engineers and scientists of the Advanced Materials division of WD Lab Grown Diamonds.