Diamond makes for an extraordinary engineering material due to its remarkable physical and chemical properties spanning extreme ranges of capability. It has the best thermal conductivity of any ...

Researchers at the Carnegie Institution of Washington, D.C. have produced 10-carat, half-inch thick single-crystal diamonds at rapid growth rates (100 micrometers per hour) using a chemical vapor ...

In the race to develop the next generation of high-performance semiconductor devices, thermal management has emerged as a critical bottleneck. From AI accelerators in hyperscale data centers to RF ...

Washington, D.C. Researchers at the Carnegie Institution's Geophysical Laboratory have learned to produce 10-carat, half-inch thick single-crystal diamonds at rapid growth rates (100 micrometers per ...

The application of CVD diamond in high energy particle physics, fusion experiments, and neutron sources as vital diagnostic tools has been accelerated by a long-standing development partnership ...