AES Semigas

IQE

5 July 2022

UKRI awards National Epitaxy Facility £12m to support UK semiconductor R&D

The UK’s National Epitaxy Facility, a collaboration between the Universities of Sheffield, Cambridge and University College London (UCL), has been awarded £12m in funding from UK Research and Innovation (UKRI) and will be a critical element of the UK’s scientific and industrial strategy in semiconductor technologies.

Led by the University of Sheffield, the National Epitaxy Facility is built on more than 40 years semiconductor and epitaxy research in the Department of Electronic and Electrical Engineering. Its role is to deliver bespoke semiconductor wafers to research projects in universities and industry across the UK and to provide access to the expertise and resources needed to progress from basic discovery to mass manufacture for major economic/societal impact for the UK.

Since 2017, the facility has supported £122m of research in 25 universities. The new funding means that the facility can continue to support R&D in the UK for the next 5-10 years.

“UKRI has continued to fund and support the National Epitaxy Facility at this critical time for the UK to increase its technological innovation in semiconductors,” notes National Epitaxy Facility director Jon Heffernan, professor in Electrical Engineering at the University of Sheffield. “Semiconductors have been the backbone of modern technological society for more than 60 years and the semiconductor industry has had an estimated overall economic value of around $8tn. Practically every aspect of our modern world is dependent on semiconductor devices, from silicon microchips that control computers, mobile phones, aircraft and even washing machines, to the internet, electric vehicles and LED lighting that has revolutionized global energy efficiency,” he adds.

“The pace of innovation and the demand for more and more advanced technology means that semiconductors will continue to be one of the most important and critical technologies of the 21st century, including in emerging areas of great importance, such as quantum computing and artificial intelligence (AI),” continues Heffernan. “Both the economic and strategic value of semiconductors is being recognized by all technologically advanced countries. Here in the UK, semiconductor innovation is key to addressing areas of critical importance to our economy, such as net zero, electrification, telecommunications, healthcare, security and quantum technologies. The National Epitaxy Facility we’re leading from Sheffield will support the UK’s research community in pioneering new types of semiconductor devices that will be the basis for future technologies.”

The UK’s electronics industry, of which semiconductors play a fundamental role, contributes £16bn annually to the country’s economic output, employing 300,000 people in 12,000 companies. The UK’s photonics industry, which also relies on semiconductors, has a £13bn annual economic output, employing 69,000 people across 1500 companies. The global market for compound semiconductor components is expected to reach $43bn by 2025.

The UK has a strong industrial base in semiconductor manufacturing with leading companies such as IQE, Lumentum, Plessey and II-VI all manufacturing semiconductor-based products for global markets.

“Cambridge will have the opportunity to continue to support the UK semiconductor community via the National Epitaxy Facility,” comments professor Rachel Oliver, who leads the University of Cambridge’s work in the facility. “The UK semiconductor ecosystem is extraordinarily innovative, on both the industrial and academic sides, and is underpinned by the availability of state-of-the-art epitaxial materials,” she adds. “Through the new facility, such materials will be at the heart of future collaborations between world-class researchers, driving real-world economic and societal impact.”

Tags: MBE

Visit: www.nationalepitaxyfacility.co.uk

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