insider brief

  • Diamond Quanta has officially announced that it has come out of stealth.
  • Diamond Quanta has achieved a significant advance in lab-grown diamond production with a “unified diamond framework” that facilitates true substituent doping.
  • The company was founded by Adam Kahn, and Tae Sung Kim will lead the company's photonics and fab engineering efforts.

Press Release — Diamond Quanta (the “Company”), a pioneer in semiconductor innovation that leverages the exceptional properties of diamond to deliver advanced solutions for power electronics and quantum photonic devices, announced today that it will officially emerge from stealth. announced the launch.

Founded by Adam Kahn, a pioneer in advanced diamond technology, Diamond Quanta has made significant advances in lab-grown diamond production with its “Unified Diamond Framework” that facilitates true substituent doping. This innovative technology seamlessly integrates new elements into the diamond's structure, imparting new properties without compromising crystal integrity. As a result, diamond, a material traditionally known for its insulating properties, has been transformed into a high-performance semiconductor capable of supporting both negative (n-type) and positive (p-type) charge carriers. This level of mobility indicates a very clean and well-ordered diamond lattice and effective passivation of the scattering centers due to the successful introduction of a co-doping strategy that reduces the effect of defects on carrier transport. Furthermore, the doping process improves the existing diamond structure by modifying dislocations, thereby increasing the electrical conductivity of the material. These advances not only preserve but also strengthen the diamond structure, avoiding common pitfalls such as large lattice distortions and the introduction of trap states that reduce mobility. As a result, this diamond is not only an excellent semiconductor material, but also a more stable and efficient material, with unique properties that allow it to outperform other materials traditionally used in high-power and high-temperature environments. Equipped with:

These advanced diamond semiconductors have excellent thermal conductivity and high dielectric breakdown strength, making them ideal for deployment in environments where high power densities and extreme temperatures are prevalent. From the harsh operating conditions of the aerospace engineering and automotive industries to the demanding power requirements of AI data centers and high-performance consumer electronics, the company's diamond technology provides unparalleled resiliency and efficiency. Industries such as aerospace and automotive increasingly rely on advanced materials to improve the performance and safety of their applications, and Diamond Quanta's cutting-edge diamond semiconductors will revolutionize these fields. At the same time, in AI data centers where managing thermal loads while maintaining high computational throughput is critical, the company's technology provides robust provide a solution. These features allow Diamond Quanta's diamond-based systems to not only meet the current demands of high-power applications, but also scale to meet future technology needs in a variety of critical sectors.

“The founding of Diamond Quanta and the development of this advanced doping process was inevitable. Industries such as electronics, automotive, aerospace, and energy are seeking semiconductor technology that can meet the increasing burdens of the evolving needs of technology expansion. ” said Adam Kahn, Founder and CEO of Diamond Quanta. “Our technology does more than simply provide an alternative material for industries seeking to improve semiconductor efficiency. We are introducing an entirely new material that redefines performance, durability and efficiency standards, and is will play an essential role in seamlessly powering increasingly heavier loads.”

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Diamond Quanta's journey has been marked by a determined commitment to pushing the boundaries of diamond physics and materials science, transforming theoretical models into concrete technologies that go beyond traditional techniques. Diamond Quanta has filed patent applications related to advanced diamond power and photonic semiconductor technologies and submitted them to technical journals. This introduces a new diamond material that improves the efficiency and durability of lab-grown diamonds in semiconductor applications. Diamond Quanta has also published in a number of technical magazines and is expected to be published this summer.

Kahn's research in diamond technology is broad and deep and features significant advances across a variety of applications. He previously served as founder, chairman, and CEO of AKHAN Semiconductor, where he was instrumental in innovating his lab-grown diamonds for myriad applications. He has played a pivotal role in the evolution of the science of advanced diamond material synthesis, contributing new advances in doped polycrystalline diamond research, and innovative design and development for a wide range of applications in optics, photonics, and semiconductor components. We have been at the forefront of manufacturing technology. Joining Mr. Khan at Diamond Quanta is Dr. Tae Sung Kim, who leads the company's photonics and fab engineering efforts.

“Diamond Quanta is revolutionizing electronics and quantum applications,” said Kim. “As we emerge from stealth, expect our cutting-edge chip technology to power a world of new possibilities for diamonds.”



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