The Japanese are now making processors out of diamonds!
Diamond could usher in a new era in semiconductor technology. It is a much more durable material in terms of both performance and temperature.
Semiconductor technology is constantly searching for stronger, more efficient and more durable materials. This search has led scientists to one of nature's hardest and most valuable substances, diamond. Accordingly, diamond has the potential to revolutionize the semiconductor industry.
Diamond can handle approximately 50 thousand times more electricity than silicon at the component level. It can also operate at five times higher temperatures. This feature makes it indispensable for applications requiring large power sources such as electric vehicles, aircraft, energy grids and nuclear power plants.
The fact that diamond is a difficult material to process has created significant technological obstacles in the production of electronic-grade substrates. However, Japanese companies have made great progress in this field. Last year, Saga University produced the world’s first diamond-based power circuit. Orbray paved the way for mass-producing 2-inch diamond chips.
The momentum continues in 2024. Power Diamond Systems has introduced diamond hardware that can handle 6.8 amps of current. It also aims to begin commercial shipments in a few years. Ookuma Diamond Device is building a factory to produce diamond semiconductors starting in 2026.
Experts predict that diamond-based microprocessors will complete the transition from the lab to the market between 2025 and 2030. As we move closer to commercial use, companies that manufacture synthetic diamonds and semiconductor equipment will benefit from this growth.
Semiconductor technology is constantly searching for stronger, more efficient and more durable materials. This search has led scientists to one of nature's hardest and most valuable substances, diamond. Accordingly, diamond has the potential to revolutionize the semiconductor industry.
Diamond could revolutionize semiconductor technology
Diamond draws attention in the electronics world thanks to its properties such as hardness and thermal conductivity. Diamond-based power devices, which can offer 10 times more performance compared to standard silicon semiconductors, are approaching commercialization thanks to developments based in Japan.Diamond can handle approximately 50 thousand times more electricity than silicon at the component level. It can also operate at five times higher temperatures. This feature makes it indispensable for applications requiring large power sources such as electric vehicles, aircraft, energy grids and nuclear power plants.
The fact that diamond is a difficult material to process has created significant technological obstacles in the production of electronic-grade substrates. However, Japanese companies have made great progress in this field. Last year, Saga University produced the world’s first diamond-based power circuit. Orbray paved the way for mass-producing 2-inch diamond chips.
The momentum continues in 2024. Power Diamond Systems has introduced diamond hardware that can handle 6.8 amps of current. It also aims to begin commercial shipments in a few years. Ookuma Diamond Device is building a factory to produce diamond semiconductors starting in 2026.
Experts predict that diamond-based microprocessors will complete the transition from the lab to the market between 2025 and 2030. As we move closer to commercial use, companies that manufacture synthetic diamonds and semiconductor equipment will benefit from this growth.
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