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Inspiring successful sales strategy of a global healthcare company

Summary of the impact

Natural photonics research by Professor Pete Vukusic at the University of Exeter was responsible for shaping the successful global communications strategy of Bausch & Lomb, a world-leading supplier of eye health products. Drawing on Vukusic's studies into bio-inspiration, Bausch & Lomb built its core brand messaging for a major new lens product around the ability of nature to inspire technological breakthroughs. Outreach campaigns targeting media and optometry professionals took Vukusic's research to an international audience, raising wider public awareness of the concept of bio-inspiration. Bausch & Lomb attributed their subsequent rapid sales growth to Vukusic's work.

Submitting Institution

University of Exeter

Unit of Assessment

Physics

Summary Impact Type

Technological

Research Subject Area(s)

Physical Sciences: Optical Physics
Chemical Sciences: Macromolecular and Materials Chemistry, Physical Chemistry (incl. Structural)

Photonic crystal LEDs

Summary of the impact

Implementation of photonic quasi-crystals on light emitting diodes (LEDs) can produce more light using less energy. This technology was brought to the global market via the successful commercialisation of laboratory devices derived from research in nanophotonics and the subsequent development of photonic quasi-crystals by a multi-disciplinary team from the University of Southampton. The intellectual property of the technology was acquired and adopted in 2008 by Luxtaltek Corporation, a global manufacturer of LEDs. In the period 2008-2012 Luxtaltek Corporation, made total profits of £35 million utilising the photonic quasi-crystal LED technology, employing more than 300 people in its production facilities.

Submitting Institution

University of Southampton

Unit of Assessment

Physics

Summary Impact Type

Technological

Research Subject Area(s)

Physical Sciences: Optical Physics
Engineering: Materials Engineering
Technology: Communications Technologies

Harnessing the power of ‘metamaterials’ to drive innovation at QinetiQ

Summary of the impact

The manipulation of electromagnetic radiation using novel materials by physicists at the University of Exeter has given rise to new technologies for military stealth applications, anti-counterfeiting measures and Radio Frequency Identification (RFID) of pharmaceuticals, machinery and perishable goods. The research findings increased the global competitiveness of FTSE 250 defence and security company QinetiQ, driving innovation in its work with the MoD and leading to the creation of a successful spin-out, Omni-ID, that is meeting demand in the high-growth RFID market. Exeter's research underpinned the EPSRC decision to award the University and QinetiQ £3.2m to exploit applications of their patented technology.

Submitting Institution

University of Exeter

Unit of Assessment

Physics

Summary Impact Type

Technological

Research Subject Area(s)

Physical Sciences: Optical Physics
Engineering: Materials Engineering
Technology: Communications Technologies

How LCD research created one of the UK’s fastest growing companies

Summary of the impact

Researchers, and the work they undertook at the University of Exeter during the 1990s, led to the formation of the Defence Evaluation and Research Agency's (now QinetiQ) first spinout company: ZBD Displays Ltd. Achieving revenue growth of 17,910% over the last five years, ZBD's unique electronic retail signage and shelf-edge labelling technology is used by major retailers all over the world. The invention used the know-how developed by ZBD's company founders whose R&D and engineering teams all include former postgraduates from the School of Physics and Astronomy, who acquired their expertise under the supervision of Professors Roy Sambles and Bill Barnes.

Submitting Institution

University of Exeter

Unit of Assessment

Physics

Summary Impact Type

Technological

Research Subject Area(s)

Chemical Sciences: Macromolecular and Materials Chemistry, Physical Chemistry (incl. Structural)
Engineering: Materials Engineering

Microstructured Optical Fibres for Laser and Biomedical Applications

Summary of the impact

This research has led to the creation of new business sectors in laser development for medical and healthcare applications, which has enabled the creation of a world-wide market worth US$96 million in 2011, and a local spin-out, Fianium Ltd, which now has more than 50 employees and an annual turnover of around £10 million. Exploiting a radically new optical component invented at the University of Southampton, the microstructured optical fibre (MOF), this research has led to economic benefit through the creation of hundreds of jobs worldwide, and enabled the development of new diagnostic and medical technologies.

Submitting Institution

University of Southampton

Unit of Assessment

Electrical and Electronic Engineering, Metallurgy and Materials

Summary Impact Type

Technological

Research Subject Area(s)

Physical Sciences: Optical Physics, Other Physical Sciences
Engineering: Materials Engineering

Engineered nonlinear materials for the optoelectronics market

Summary of the impact

Covesion, a company that was spun out of the University of Southampton, focuses on research and development of high-value engineered nonlinear crystal materials, that find widespread use in the laser, defence and display sectors. The impacts of their work fall under the headings of economic, via job creation and investment, health, through application of their products in medical imaging, and the environment, via detection of airborne pollutants and remote sensing. The company is now a multi-million pound business that has attracted more than £1m in US investment and won UK export orders around the world. The global value of Covesion-enabled commerce since the company's inception in 2009 is estimated to be in excess of US$100m.

Submitting Institution

University of Southampton

Unit of Assessment

Physics

Summary Impact Type

Technological

Research Subject Area(s)

Physical Sciences: Optical Physics, Other Physical Sciences

Physics at Work

Summary of the impact

Between January 2008 and July 2013, over 10,000 key stage 4 school students and their teachers directly engaged with active research of the Cavendish Laboratory, Department of Physics, University of Cambridge through an annual interactive 3 day exhibition, titled "Physics at Work". In 2012 the event attracted 31 non-selective state schools and 17 selective/independent schools, 23 of which had visited the exhibition 3 or more times previously- a testament to its success. Building on the enthusiasm that the students showed during their participation in the event, teachers noted an increase in the number opting to study A-level physics and stated that those previously with no interest left with a very positive image of the subject.

Submitting Institution

University of Cambridge

Unit of Assessment

Physics

Summary Impact Type

Societal

Research Subject Area(s)

Physical Sciences: Other Physical Sciences
Chemical Sciences: Macromolecular and Materials Chemistry, Physical Chemistry (incl. Structural)

Re-designing artificial lights to suit our biological needs

Summary of the impact

Regulation of our sleep-wake cycle is crucial to health and well-being. The quality (intensity and spectral distribution) of artificial light is currently described according to its ability to activate rod and cone photoreceptors in the human eye. This approach ignores the discovery of a third photoreceptor that Lucas and his group have shown to be responsible for a range of sub-conscious neurophysiological and neurobehavioural responses to light, which together strongly contribute to health, productivity and well-being. Their research has established ways of measuring light that predict its effect on these newly discovered photoreceptors. They have partnered with industrial [text removed for publication] and public policy (various) organisations to translate this knowledge into improved artificial light sources and updated international standards for architectural lighting, for use in a wide range of domestic, public and industrial settings.

Submitting Institution

University of Manchester

Unit of Assessment

Biological Sciences

Summary Impact Type

Technological

Research Subject Area(s)

Biological Sciences: Physiology
Medical and Health Sciences: Neurosciences

Modelling defects in diamond to preserve consumer trust in the global diamond trade

Summary of the impact

An atomistic modelling program developed at Exeter University has been used to make a significant, recognised contribution to the strong business performance of the De Beers Group, the world's leading diamond company. It gave De Beers the confidence to fund the successful development of new methods to identify synthetic and treated diamonds, which the company says has minimised the impact of fraudulent behaviour on consumer confidence, supported jobs in the global diamond trade, contributed to sales of $7.4bn in one year alone and was a factor in its decision to invest £20m in new research facilities in the UK.

Submitting Institution

University of Exeter

Unit of Assessment

Physics

Summary Impact Type

Technological

Research Subject Area(s)

Chemical Sciences: Inorganic Chemistry, Other Chemical Sciences
Earth Sciences: Geology

Chromatic Monitoring For Industry And The Health Sector

Summary of the impact

The underpinning research has led to a methodology for cost-effective monitoring systems to interpret complex and emergent conditions in real-world applications. There are ten different organisations utilising the technology, benefitting the UK economy and health care provision, both nationally and internationally. These include MAST Group Ltd, Electricity North West Ltd, TMMHRC (India) and the Milestones Trust (Bristol). The impacts are (i) Economic: improving business capabilities and UK company profit margins (ii) Societal: benefiting health sector organisations in India and in the UK through improved diagnosis and care for the elderly and vulnerable; and (iii) Environmental: reducing waste and carbon footprint.

Submitting Institution

University of Liverpool

Unit of Assessment

Electrical and Electronic Engineering, Metallurgy and Materials

Summary Impact Type

Technological

Research Subject Area(s)

Mathematical Sciences: Applied Mathematics
Information and Computing Sciences: Artificial Intelligence and Image Processing
Engineering: Electrical and Electronic Engineering

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