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Welsh Compound Semiconductor Centre Could Create 5000 Jobs

IQE and Cardiff University move one step closer to world-first compound semiconductor cluster 

A UK partnership between industry and academia to create the world's first compound semiconductor technology cluster is set to be launched at events in Westminster and Cardiff next month.

The cluster, which has the potential to create 5,000 new jobs, is based on a joint venture between IQE plc "“ a supplier of advanced semiconductor wafers "“ and Cardiff University. This partnership aims to build a centre of excellence that represents a key milestone for the development and commercialisation of next generation compound semiconductor (CS) technologies.

The launch of the Compound Semiconductor Centre (CSC) will bring industry and academia together towards a shared vision to create a UK-based cluster for next-generation semiconductor technologies.

Four significant clusters based around silicon technologies already exist in Europe, but CSC "“ based in Cardiff - will be the first centre to build on the exciting potential of compound semiconductors. 

With high performance capabilities, coupled with energy efficiency and photonic properties, compound semiconductors are considered as an enabling technology for increased productivity and the key economic growth drivers identified in the European Commission's 'Horizon 2020' economic growth strategy, aimed at the reindustrialisation of the EU.

The planned CS cluster has the potential to create up to 5,000 jobs within the region over the next five years, and would represent a central base of operations for the UK (and wider EU regions) efforts to reclaim high value technology manufacturing from competitors in East Asia.    

The partnership will see Cardiff-based IQE, whose technology can be found in most mobile devices on the world market, working closely with Cardiff University's new £40 million Institute of Compound Semiconductors (ICS).

Drew Nelson, CEO of IQE, said: "Semiconductors are the unsung heroes of our modern world.  Most people don't realise that when they're accessing the internet on their smartphone, the communications networks and mobile phone technology they are using just would not possible without compound semiconductors. What's more, it's even less likely they'll know that much of this technology is developed and manufactured in Wales.

"But technology evolves at a rapid pace.  One of the big problems in the UK today in terms of advanced technologies is that a great deal of investment has gone into early stage research that so often goes on to be developed elsewhere. We frequently fail to take the steps needed to commercialise the research and development activities through innovation and manufacturing. 

"This is why we are looking to create the world's first compound semiconductor cluster, and having Cardiff University and the UK academic infrastructure in place creates a very strong basis to enable this cluster to be formed."

The CSC is jointly owned and jointly controlled by Cardiff University and IQE. To date, Cardiff University has contributed £12 million in capital investment to the venture, with IQE committing hardware, buildings, infrastructure as well as licensing certain intellectual property to the CSC. 

The ICS forms part of Cardiff University's £300m investment in new research and innovation centres, and its potential is already recognised by the Welsh and UK governments, who have invested over £29m towards its creation.  

Diana Huffaker, Ser Cymru Chair in Advanced Engineering and Materials, recently joined from UCLA in the United States to become director of Cardiff University's ICS, said: "The Compound Semiconductor Centre is a unique facility unlike anything else in the UK or European Union. It brings together Cardiff University research in parallel with industrial scale production from IQE and future industrial partners. In effect, the partnership builds a bridge from basic research to commercial technology transfer. 

"Not only will this joint venture help foster education at all levels but it will help create jobs within Cardiff and Wales. The teaming of IQE and Cardiff University is crucial to both sides: the venture allows IQE to try experimental ideas which they really think will be important, while Cardiff benefits from IQE's business direction. It's really a perfect union between the two.  CSC/ICS will be open for business for any interested industrial and academic users."

Collectively, the ICS, the joint venture, and IQE's existing world class CS operation in Cardiff establishes the core elements of a CS ecosystem in Wales to bridge early stage research, product development, prototyping, and pilot production, through to high volume manufacturing.

Nelson added: "This cluster will take the great research that is being developed and seamlessly take it into high-volume manufacturing. Achieving that will secure a global platform for Wales and the UK."     



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Thanks to the great diversity of the semiconductor industry, we are always chasing new markets and developing a range of exciting technologies.

2021 is no different. Over the last few months interest in deep-UV LEDs has rocketed, due to its capability to disinfect and sanitise areas and combat Covid-19. We shall consider a roadmap for this device, along with technologies for boosting its output.

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Additional areas we will cover include the development of GaN ICs, to improve the reach of power electronics; the great strides that have been made with gallium oxide; and a look at new materials, such as cubic GaN and AlScN.

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So make sure you sign up today and discover the latest cutting edge developments across the compound semiconductor and integrated photonics value chain.

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