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1. Q Chip Ltd - Micro Technology for Injectable Therapeutics

Summary of the impact

Economic impact is claimed through the growth of the biopharmaceutical spin-out company Q Chip Ltd. During the REF period, this has created 19 new jobs, £7.5M investment, a new Dutch subsidiary (Q Chip BV), and staged-payment, six figure contract sales to four major international pharmaceutical companies.

Q Chip has generated over £928K in contract sales from the pharmaceutical industry from 2008-2012, with further sales of over £1M projected in 2013-14.

Originally established by Professor David Barrow in 2003 from his micro technology research, Q Chip has developed new processes and miniaturised equipment to encapsulate materials, including drugs, within uniform polymeric microspheres as injectable therapeutics.

Submitting Institution

Cardiff University

Unit of Assessment

General Engineering

Summary Impact Type

Technological

Research Subject Area(s)

Chemical Sciences: Analytical Chemistry, Macromolecular and Materials Chemistry
Engineering: Interdisciplinary Engineering

1. Enabling the cost-effective and environmentally friendly production of Perspex

Summary of the impact

Cardiff University, through developing and patenting a commercially viable synthetic route to a catalyst, has enabled the application of a new process, the Alpha Process, for the production of methyl methacrylate (MMA), a key commodity precursor to Perspex. The Alpha Process has had economic and environmental impacts.

Lucite International, the world's leading MMA producer, has invested in major Alpha Process production facilities in Singapore and Saudi Arabia, benefitting from a production route which is more efficient, more reliable and cheaper than conventional routes.

The Alpha Process also brings environmental benefits, as it does not rely on the use of corrosive and toxic feedstocks, such as hydrogen cyanide, which are associated with conventional MMA processes.

Submitting Institution

Cardiff University

Unit of Assessment

Chemistry

Summary Impact Type

Technological

Research Subject Area(s)

Chemical Sciences: Inorganic Chemistry, Organic Chemistry, Other Chemical Sciences

2. Platinum-Group Element mineral deposits: exploration, evaluation and beneficiation

Summary of the impact

Platinum Group Elements (PGE) are critical strategic metals because of their unrivalled applications in catalysts, fuel cells and electronics and cancer therapies. Research and analytical methods developed at Cardiff have impacted on exploration for new PGE deposits, and more efficient processing of PGE ores by international mining companies. A key milestone between 2009 and 2012 was the discovery of a 3 billion year old giant impact crater in West Greenland. This discovery is of major economic significance because all craters previously found in this size class are associated with multi-billion dollar mineral and/or hydrocarbon resources. It led to an intellectual property transaction worth CDN$ 2.1 million and discovery of nickel and PGE deposits in Greenland by North American Nickel Incorporated.

Submitting Institution

Cardiff University

Unit of Assessment

Earth Systems and Environmental Sciences

Summary Impact Type

Environmental

Research Subject Area(s)

Earth Sciences: Geochemistry, Geology
Engineering: Resources Engineering and Extractive Metallurgy

Enabling high-quality, low power mobile broadband services

Summary of the impact

Femtocells provide short-range (e.g. 10m) wireless coverage which enables a conventional cellular communication system to be accessed indoors. Their widespread and growing use has been aided by the work in UoA11 by the University of Bedfordshire (UoB).

In 2008, while the femtocell concept was still in its infancy, researchers at UoB with expertise in wireless networks recognised that coverage prediction and interference reduction techniques would be essential if the benefits of that concept were to be realised.

Collaboration with two industrial partners (an international organisation and a regional SME) resulted in tools that enable operators to simulate typical femtocell deployment scenarios, such as urban, dense apartments, terraced house and small offices, before femtocells can be reliably deployed by users without affecting the rest of the network (a benefit of the technology). These tools have been deployed by those partners to support their businesses. A widely-cited textbook, written for network engineers, researchers and final year students, has brought knowledge of femtocell operation to a wider audience.

Submitting Institution

University of Bedfordshire

Unit of Assessment

Computer Science and Informatics

Summary Impact Type

Technological

Research Subject Area(s)

Information and Computing Sciences: Computation Theory and Mathematics, Information Systems
Technology: Communications Technologies

The Impact of Physical Organic Chemistry Research at Huddersfield

Summary of the impact

University of Huddersfield research in physical organic chemistry has delivered economic, industrial and societal benefits. It has led to process improvements in chemical manufacturing, most notably in the optimisation of the synthesis of antisense oligonucleotides and in the use of liquid ammonia as a solvent. It has also led to the development of new inhibitors of bacterial β-lactamases for use as antibacterials. The research team's expertise has been reflected in the success of IPOS (Innovative Physical Organic Solutions), a unit established in 2006 to carry out research in process and other areas of chemistry for the chemical industry. IPOS expanded significantly from 2009 to 2013 and has now collaborated with more than 150 companies, many of them based in Yorkshire/Humberside where regeneration is critically dependent on the success of new, non-traditional, high-technology firms and industries. Through these collaborative projects, IPOS has contributed to the growth and prosperity of both regional and national industry.

Submitting Institution

University of Huddersfield

Unit of Assessment

Chemistry

Summary Impact Type

Technological

Research Subject Area(s)

Chemical Sciences: Organic Chemistry, Physical Chemistry (incl. Structural), Other Chemical Sciences

Novel applications for fractionation of plant biomass in the food ingredients industry

Summary of the impact

Yield of valuable biomass fibre components and their utilization in the food industry has been maximised by novel, cost-effective and environment-friendly plant fibre extraction methods developed by BEAA. Specifically, application of these methods enabled patenting and commercialisation of oat fibre extraction by the Swedish company BioVelop, directly resulting in commercial impact through international sales of five nutritional products released since 2010. The most successful of these is produced at a quantity of 180,000 kg, or € 600,000 per year. In May 2013, world-leading food-additive giant Tate & Lyle took over BioVelop, securing the success and lasting commercial impact of the BEAA technology.

Submitting Institutions

Aberystwyth University,Bangor University

Unit of Assessment

Agriculture, Veterinary and Food Science

Summary Impact Type

Technological

Research Subject Area(s)

Chemical Sciences: Macromolecular and Materials Chemistry, Organic Chemistry
Biological Sciences: Plant Biology

Cervical Cancer Diagnostics

Summary of the impact

Through research carried out under an EPSRC Teaching Company (KTP) award, we assisted an SME, CellPath, to develop the capacity to manufacture a novel set of dyes (Ortho Stains) for use in the Papanicolaou cervical smear test and other histological procedures. The company, previously mainly known for manufacture and sales of laboratory plastics etc, rapidly become the UK market leader in cytology stains, with over 50% of the domestic market, and exports to Finland, France, Italy, Japan, Norway, Sweden and the USA. As a result the company has increased turnover by 400% and the workforce has grown from 5 to 65 employees.

Submitting Institution

Bangor University

Unit of Assessment

Chemistry

Summary Impact Type

Technological

Research Subject Area(s)

Chemical Sciences: Organic Chemistry

Unprecedentedly high modulus, high tensile strength light weight tapes and films for demanding applications

Summary of the impact

The development of disentangled, ultrahigh molecular weight polyethylene at Loughborough University since January 2007 has provided an environmental friendly route to the manufacture of high modulus, high tensile strength tapes with applications ranging from body armour to helmets, ropes and cables. Commercialisation is being undertaken by the Japanese company Teijin, in the Netherlands, under the brand name Endumax®. The new business, started in 2011, now employs >80 staff and predicts annual sales of >€15M from 2014 with an increase of ~10% over the first five years. Competitors such as Du Pont (Tensylon®) and DSM (Dyneema BT10®) have also initiated development of products using the new process route.

Submitting Institution

Loughborough University

Unit of Assessment

Aeronautical, Mechanical, Chemical and Manufacturing Engineering

Summary Impact Type

Technological

Research Subject Area(s)

Chemical Sciences: Macromolecular and Materials Chemistry
Engineering: Materials Engineering

2. THz detection from the distant universe to the international market

Summary of the impact

Research and Development activity at Cardiff University's Astronomy Instrumentation Group (AIG) has been commercialised and made available to the international market. Sales have been made to fields including bio-molecular spectroscopy for health science, plasma fusion diagnostics for sustainable energy, and remote atmospheric sensing. This has resulted in economic impact through:

  • revenue generated by the Group's spin-out company, QMCI Ltd., which has demonstrated increased global sales of unique AIG technology through commercialisation of the latest THz detection systems and advancing product development and performance;
  • exploitation by third parties in the alternative energy and security markets.

Submitting Institution

Cardiff University

Unit of Assessment

Physics

Summary Impact Type

Technological

Research Subject Area(s)

Physical Sciences: Atomic, Molecular, Nuclear, Particle and Plasma Physics, Other Physical Sciences
Technology: Communications Technologies

Realising the potential of 3D scanners through reverse engineering and digital shape reconstruction

Summary of the impact

3D scanning technology has enabled multiple opportunities for innovation in diverse areas such as manufacturing, design, and the arts. However, full utilisation of this technology requires not just the scanning hardware, but accompanying software that can build meaningful, editable models. This development has been pioneered by research conducted in the School of Computer Science and Informatics, at Cardiff University. Innovative algorithms for reverse engineering and digital shape reconstruction were devised that enabled the reconstruction of complex computer aided design (CAD) models from data captured by 3D scanners. The algorithms have been endorsed by Geomagic Inc, a market leading American software corporation (recently acquired by 3D Systems), that has subsidiaries in Europe and Asia and global distributors, and incorporated into their software product suite. This is accessed by nearly 10,000 licensed users worldwide, who have applied the product for industrial applications including aerospace and automotive engineering, product design, cultural heritage preservation, and healthcare. Accordingly, the impacts claimed are twofold: a) economic gain manifesting in the benefits to Geomagic and a plethora of end users who have utilised the software, b) impact on practitioners and professional services in diverse domains.

Submitting Institution

Cardiff University

Unit of Assessment

Computer Science and Informatics

Summary Impact Type

Technological

Research Subject Area(s)

Mathematical Sciences: Applied Mathematics
Information and Computing Sciences: Artificial Intelligence and Image Processing, Computation Theory and Mathematics

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