Plasmability joins lab-grown diamond consortium
Austin Texas-based company becomes first founding member of LGD in TECH consortium
Plasmability, based in Austin, Texas, has announced that it has joined the LGD in TECH consortium, a group of lab-grown diamond growers, R&D companies, and users of grown diamond, as its first founding member.
Liz Chatelain, co-founder, of the LGD in TECH consortium said of the company: "Their unparalleled expertise and commitment to quality align perfectly with our mission to advance the many uses of lab-grown diamond through innovation and collaboration. Together, we will set new standards for excellence and drive the adoption of lab-grown diamonds in various technological applications. Grown diamond improves the functionality and longevity of component parts used in many industries."
The LGD in TECH consortium aims to foster collaboration to accelerate the development and adoption of lab-grown diamonds in technology sectors such as electronics, optics, quantum computing, defence and space.
Grown diamond’s inherent properties include the highest thermal conductivity, wide bandgap, outstanding electronic transport, hardest material, broad optical transmission and NV Centers, to name a few.
"We are honoured to join the LGD in TECH consortium as its first Founding Member," said Bill Holber, president of Plasmability. "This partnership represents a unique opportunity to collaborate with other industry leaders and drive innovation in the lab-grown diamond sector. We are excited to contribute our expertise and work together to unlock the full potential of lab-grown diamonds in technology."
Secure Your Hydrogen Supply
A study supply of high-purity hydrogen is critical to semiconductor fabrication. Supply chain interruptions are challenging manufacturers, leading to production slowdowns and stoppages. On-site hydrogen generation offers a scalable alternative for new and existing fabs, freeing the operator from dependence on delivered gas.Plant managers understand the critical role that hydrogen plays in semiconductor fabrication. That important job includes crystal growth, carrier gas, wafer annealing, and in the emerging Extreme UV Lithography (EUV) that will enable new generations of devices. As the vast need for semiconductors grows across all sectors of world economies, so does the need for high-purity hydrogen.
Take control with Nel on-site hydrogen generation.
Read more
.jpeg){kind=logo}
