POWERING THE FUTURE, HARNESSING THE UNIQUE PROPERTIES OF DIAMOND

AMLogo_Lockup_White.png

Among the most versatile supermaterials on earth, and the hardest known to man, diamonds are uniquely suited to advance technological discovery. At WD, our research and development is centered around breakthrough diamond applications to solve the world's most critical challenges. Our focus is on providing cutting-edge diamond solutions to reduce reliance on fossil fuels, power quantum technologies, accelerate telecommunications reinvention, and democratize clean air and water. 

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

C1_9-28-2020412906v2.png

WE ARE USHERING IN THE DIAMOND AGE, SOMETHING RE: PEOPLE AND PLANET

Image by Steven Binotto

EV

Reducing the reliance on fossil fuels and democratizing access to new electric technology

QUANTUM

Developing device solutions that power efficient, scalable quantum computing 

Communication Tower

TELECOM

SOMETHING FURTHER ABOUT TELECOM SOLUTIONS AND 5G

Water

STERILIZATION

Creating effective, lifesaving systems that expand availability of clean air and purified water

Image by Fakurian Design

High-quality CVD diamond material.

Update to INTRINSIC, DOPED overview, followed by final, strong CTA re: reaching out to discuss needs

ADD COPY RE: MAJOR ADVANCES IN large FORM FACTOR – that was the previous limiting element.

 

Our diamond wafers are highly customizable according to application, with a range of edge lengths and a variety of surface orientations and preparations.

01_ Optical Grade

Semi- to fully-polished windows and discs for use in extreme environments, prisms, radiation detectors and lasing applications

02_ Nitrogen Vacancy

​Highly polished wafers offering minimal or tailored nitrogen incorporation, for use in research and envisioned Quantum 2.0 technologies

03_ Conductive

Boron-doped, rough-cut to semi-polished wafers for use in nano-indentors, among other conductive diamond applications

04_ Standard Grade

​Semi- to- fully-polished wafers of high-quality material, for use in a variety of applications including high-power electronics

Latitude_Lab_HorizontalCrop_2100x500_469b09c3-c82f-406f-bca8-fd47799e0683_2100x500_crop_ce

REMOVE - INDUSTRIAL AND SCIENTIFIC APPLICATION DIAMONDS

We are proud to offer sustainability rated, leading-edge laboratory grown diamond products for use in high-impact research, industrial and commercial applications.

Screen Shot 2021-11-01 at 11.52.16 PM.png
IMG_9747.JPG

DIAMOND ANVILS - REMOVE

We provide laser-cut, precision-polished Type IIA CVD diamond anvils for use in high-pressure scientific experiments.

01_ Optical Grade

Anvils suitable for IR, X-ray, ruby fluorescence and some Raman applications, with a nitrogen level of <0.5 ppm - 

02_ Multi-Carat

Large anvils for Neutron and X-ray applications, with a nitrogen level ~5 ppm

03_ Ultra-Low Fluorescence

ULF anvils suitable for high performance Raman spectroscopy

04_ Speciality

​High-pressure anvil repair services and Diamond Anvil Cell devices

INDUSTRIAL DIAMONDS - REMOVE

Our industrial diamond material offers exceptional advantages across a wide spectrum of applications.

01_ Standard Grade

​Semi- to fully-polished diamond blanks ideal for the cutting and forming of materials

02_ Device Grade

Interface-free blanks used in high-precision mechanical tooling, such as water jet orifices and wire drawing dies –- ANYTHING TO OFFER HER FOR INTRINSIC?