Diamond Materials for Semiconductor Applications
Lyon, France – November 13, 2013: Yole Développement announced its Diamond Materials for Semiconductor Applications report. Yole Développement’s report provides a complete analysis of the different diamonds materials including their characteristics, equipment and manufacturing processes, applications in semiconductor devices, main players. Also, this report is to guide short- and mid-term strategic decisions in the business, which is relatively small today, but has huge long-term market potential.
$43M Diamond Material Market in 2020 will be Driven Mainly by Passive Devices
Diamond materials have been in development for more than 50 years. Besides the traditional tooling applications (drilling, cutting…), the interest in diamond continues to grow for optical and thermal applications, and for new applications in semiconductor devices such as high-power devices and high-frequency devices able to work at elevated temperatures.
In fact, diamond’s unique physical and electrical properties, which include: the highest known thermal conductivity, a wide band gap, excellent electrical insulator properties, very high breakdown voltage and very high carrier mobility, make diamond an excellent candidate for electronic devices with ultimate performance.
However, the costs of diamond, as well as the remaining technology barriers limit the diamond material market to only a few applications and some high-end devices.
The diamond applications in electronic devices, such as high-voltage power electronics, high frequency high-power devices, and high-power optoelectronic devices (laser diodes, LEDs), are the scope of the report.
Both passive (heat spreaders) and active (diodes, transistors) diamond solutions are considered in the market quantification.
Despite the high costs of high-quality materials, a large number of players are involved in the 2013 diamond materials market and its largest segment – R&D activities. Two scenarios for 2013-2020 diamond material market growth are presented in the report. “According to the base scenario, the diamond materials market for semiconductor devices will surpass $43M and will be represented mainly by heat spreaders used in high-power device thermal management,” explains Milan Rosina, Market & Technology Analyst, Compound Semiconductors, at Yole Développement.
For more information, visit www.yole.fr